23rd australian institute of physics congress · 2. the registration desk will be open for the...
TRANSCRIPT
Image credit: LIGO/R. Hurt (Caltech-IPAC)
9-13 December 2018Perth, Western Australia
Congress Handbook
23rd Australian INSTITUTE of Physics CongressJOINT WITHAUSTRALIAN OPTICAL SOCIETY (AOS) CONFERENCE;43RD AUSTRALIAN CONFERENCE ON OPTICAL FIBRE TECHNOLOGY (ACOFT);2018 CONFERENCE ON OPTOELECTRONIC AND MICROELECTRONIC MATERIALS AND DEVICES (COMMAD 2018)
23rd Australian Institute of Physics Congress 2018 – HANDBOOK2
23rd Australian INSTITUTE of Physics Congress
9-13 December 2018Perth, Western Australia
Table of contents
AIP Congress Committee Welcome ........................................................................................................................................... 3
AIP President’s Welcome ................................................................................................................................................................. 4
AOS President’s Welcome................................................................................................................................................................ 5
University of Western Australia Physics Head’s Welcome ............................................................................................. 6
COMMAD Chair Welcome ................................................................................................................................................................ 6
Acknowledgements ............................................................................................................................................................................ 7
AIP Congress Code of Conduct .................................................................................................................................................... 8
Useful Information ............................................................................................................................................................................... 9
Congress App .......................................................................................................................................................................................12
Social Functions ..................................................................................................................................................................................12
Workshops .............................................................................................................................................................................................13
Plenary and Keynote speakers ....................................................................................................................................................15
Program ...................................................................................................................................................................................................28
Venue maps ..........................................................................................................................................................................................42
Sponsors and Exhibitors .................................................................................................................................................................45
Exhibition Floorplan ...........................................................................................................................................................................52
Poster Program ...................................................................................................................................................................................53
Presenting Authors ............................................................................................................................................................................58
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AIP Congress Committee Welcome
This week’s proceedings comprise the 23rd Australian Institute of Physics Biennial Congress, the Australian Optical Society (AOS) Conference, the 43rd Australian Conference on Optical Fibre Technology (ACOFT), the Conference on Optoelectronic and Microelectronic Materials and Devices (COMMAD 2018). On behalf of all of these, welcome to Perth!
The scientific program reflects the breadth of physical sciences and technology in Australia, with topics ranging from the very fundamental to the very applied. The program also reflects the value placed on all facets of the physics-related activities – encompassing academic research, teaching and education, and industrial and technological applications.
In planning this year’s congress, the program and organising committees have had a particular view towards diversity and inclusivity. We are pleased that the program achieves a good gender balance amongst the keynote and plenary speakers, and we reaffirm our commitment to the principles of diversity, gender balance and inclusivity. This commitment clearly reflects current priorities amongst our registered participants: the ‘Diversity and Equity Group in Australian Physics’ session was booked out in next to no time! Our apologies to those who missed out.
Please take kind note of our sponsors and exhibitors, listed on page 45. This week’s special sessions, plenary presentations and networking events – free to all participants – have been made possible by their generous support which we gratefully acknowledge.
Physics, and science in general, have a lot to offer to the society we live in. Few doubt the evident contributions of our discipline to scientific advances and its relevance to our technology-based industries – and we are here to celebrate these. Yet, surely, the discerning and quantitative way of thinking on which we pride ourselves is a crucial element not just of a more productive society, but more broadly of a smarter society. “To think like a physicist” should be a badge of honour that is worn with pride, not just within the confines of the research lab or lecture theatre but in the arena of public debate, where our society’s future direction is at stake. Alongside the in-depth scientific programme, we hope to see elements of this broader discussion about the role of our discipline in society in the lecture theatres or during the social events!
On behalf of all members of the organising and program committee, I would like to wish you an enjoyable time at the congress, and hope you take away some new and profound scientific insights during your time here in Western Australia.
Gerd Schröder-TurkAIP Congress Organising Committee Chair
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AIP President’s Welcome
Welcome to the 23rd Australian Institute of Physics Congress, held jointly with the Australian Optical Society Conference, the 43rd Australian Conference on Optics and Fibre Technology and the 2018 Conference on Optoelectronic and Microelectronic Materials and Devices.
The Congress provides one of the best local opportunities for physicists from a wide range of research, education, government and industry to share ideas, network and hear talks from our distinguished plenary and keynote speakers as well as from other colleagues presenting in the broader program.
It is great to see Congress held in Perth – the first time this millennium! And it is great to see the strength of the program, which between the astronomy and gravitational wave streams and the joint optics conferences is very well aligned with recent Nobel prizes. Both these geographic and topical alignments are surely signs of the strength and interest in the physics community in Australia.
That strength is matched by the efforts of all those involved in organising this Congress.
On behalf of the Australian Institute of Physics, thank you to all those involved, particularly to the local organising committee. We hope all delegates enjoy an informative and rewarding Congress.
Andrew Peele and Jodie BradbyPresident and Vice-President, Australian Institute of Physics
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AOS President’s Welcome
I would like to start by welcoming you all to the ACOFT / AOS Conference stream of this Congress.
The AOS is delighted to partner again with AIP in this congress to hold our annual conference. We hope that the Australian and New Zealand optics and photonics community will benefit from this excellent opportunity, not only to renew contacts within our community, but to engage with the wider physics community.
Our conferences in this Congress are the 43rd Australian Conference on Optical Fibre Technology (ACOFT) and the AOS Conference, held biennially with the AIP Congress for many years now. AOS also runs ANZCOP and ACOLS, and we are actively reviewing ways to streamline these conferences to provide the best support for the Australasian optics community. Supporting conferences is a major activity of AOS, and I encourage you to get involved in AOS to help steer future events.
I congratulate the organizers on bringing together such a strong program. The invited speakers are especially exciting, covering some of the hottest topics in optics and photonics. It is particularly pleasing to see good diversity in this group.
It’s great to be in Perth again, only the third time we have held a conference here (ANZCOP 2013 and ACOFT 1985).
I would like to thank everyone who has contributed to making this event a success: the organising committee and the members of the TPC whose expertise and time is so important. I particularly want to thank Robert McLaughlin who has so ably chaired the TPC for the AOS/ACOFT stream and coordinated so many aspects of our involvement in this Congress.
Enjoy the event and Perth, be inspired by the great speakers, renew old friendships and make new ones. Make the most of this annual congregation of Australasian optics and photonics researchers, and physicists.
Simon FlemingAOS President
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University of Western Australia Physics Head’s Welcome
We are very pleased to be hosting the 23rd Australian Institute of Physics Congress and the Australian Optical Society Conference (AOS), the 43rd Australian Conference on Optical Fibre Technology (ACOFT), and the 2018 Conference on Optoelectronic and Microelectronic Materials and Devices (COMMAD) in our leafy campus, overlooking the picturesque Matilda Bay. The conference venue is conveniently situated about 8 minutes from Perth CBD, 10 minutes from the stunning Cottesloe beach, with nearby Kings Park and Botanic Garden, leisure and dining. We take great pride in welcoming you all to the University of Western Australia.
The biennial AIP Congress, the AOS, ACOFT and COMMAD Conferences, are the premier national forums to present and discuss progress in physics related research in both fundamental and applied areas. This is an exciting time for physics and this grand event brings together leading researchers in almost all fields of physics. We are delighted to have such an eminent list of speakers from many different countries. This will be a great opportunity to network, to exchange inspiring new ideas, to strengthen existing collaborations and to forge new partnerships.
We look forward to seeing you in Perth, and hope you will find the conferences informative and valuable.
Jingbo WangHead of Physics Department, University of Western Australia
COMMAD CHAIR Welcome
Welcome to the 2018 Conference on Optoelectronic and Microelectronic Materials and Devices, held jointly with the 23rd Australian Institute of Physics Congress, the Australian Optical Society Conference, and the 43rd Australian Conference on Optics and Fibre Technology. COMMAD is delighted to partner for the first time with AIP and AOS. It is great to welcome you at this joint conference event in the beautiful Perth on the Indian Ocean coast of Australia.
COMMAD would like to thank the Australian Nanotechnology Network for supporting the attendance of students and early career researchers and The University of Western Australia for hosting the meeting. In addition, we are very delighted to be able to partner with the Australian National Fabrication Facility and offer a Short Course on Nanofabrication Technologies with a motto of Engineering your Imagination.
Please enjoy the event, the beautiful campus of UWA, Perth and Western Australia.
Mariusz MartyniukCOMMAD
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Acknowledgements
CONGRESS ORGANISING COMMITTEEGerd Schroeder-Turk, ChairIgor Bray, Co-chairIan McArthur, Co-chairAlmantas Pivrikas, SecretaryRon Burman, TreasurerDavid BlairJodie BradbySharon EyerKetesse HansenMariusz MartyniukRobert McLaughlinStuart MidgleyHalina Rubinsztein-DunlopAna-Suncana SmithGeoff SwanCathryn TrottKathryn Wilson
AIP EXECUTIVEAndrew Peele, PresidentJodie Bradby, Vice PresidentKirrily Rule, Honorary SecretaryJudith Pollard, Honorary TreasurerStephen Collins, Honorary RegistrarWarrick Couch, Immediate Past PresidentOlivia Samardzic, Special Project Office
PROGRAM COMMITTEEMichael Tobar, ChairJingbo Wang, Co-chairBruce Gardiner, Secretary Igor BrayBrett Carter Evenlyne DeplazesSimon DoeMartin Ebert Ben EggletonLorenzo FaraoneSimon FlemingMatthew HoleMikhail KostylevPegah Fatemah MaasoumiMariusz MartyniukIan McArthurRobert McLaughlinAndrea MorelloMaria ParrappillyGerd Schroeder-TurkLister Staveley-SmithChris ValeAnton Wallner
CONGRESS SECRETARIAT
PO Box 6150, Kingston, ACT, 2604P: 02 6281 6624E: [email protected]: www.conferencelogistics.com.au
For assistance during the Congress, please phone the registration desk on 0498 435 169.
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Acknowledgment of Country The Australian Institute of Physics Congress 2018 Committee acknowledges that the Congress is being held on Noongar land, and that Noongar people remain the spiritual and cultural custodians of their land, and continue to practise their values, languages, beliefs and knowledge.
AIP Congress Code of ConductOur congress is dedicated to providing a harassment-free experience for everyone, regardless of gender, gender identity and expression, age, sexual orientation, disability, physical appearance, body size, race, ethnicity, religion (or lack thereof), or technology choices. We do not tolerate harassment of congress participants in any form. Sexual language and imagery is not appropriate for any Congress venue, including talks, workshops, parties, Twitter and other online media. Congress participants violating these rules may be sanctioned or expelled from the congress without a refund at the discretion of the congress organisers.
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Venue and registration
Congress venueUniversity of Western AustraliaCrawley CampusStirling Highway, Perth WA
RegistrationThe registration desk is located at the rear entrance of the University Club of Western Australia, in front of Seminar Rooms 1 and 2. The registration desk will be open for the duration of the congress and will be your main point of contact for all congress related enquiries.
You can contact the congress organisers on 0498 435 169 for the duration of the congress 9-13 December.
The registration desk will be open at the following times:
Sunday 9 December: 8.30am to 6.30pm Monday 10 December: 7.00am to 6.30pmTuesday 11 December: 7.30am to 6.00pm Wednesday 12 December: 7.30am to 7.30pmThursday 13 December: 7.30am to 6.00pm
Name badges Your official Congress name badge must be worn at all times as it is your entry to all congress sessions, the Exhibition Hall and social functions. Entry may be refused to anyone not wearing their name badge.
Catering and special requirementsAll catering served will be an informal stand-up buffet. Please note the locations for catering during the congress below as there will be a change on the last day:
Monday 10 December – Wednesday 12 December: Morning, afternoon teas and lunches will be served in the Banquet Hall at the University Club.
Thursday 13 December: Morning, afternoon teas and lunch will be served on the outdoor Terrace at the University Club.
Dietary requirements noted on your registration have been passed onto the catering staff for all congress related activities, including the main congress, workshops and social events.
Delegates who requested specific dietary requirements will have a special diet card included in the back of their name badge holder, and a separate table to pick up food. Please ask the catering staff to assist if required.
NOTE: Dietary requests will be catered for to the best of the venue’s ability. Individuals with severe allergies are requested to advise Conference Logistics prior to the congress of their requirements, and bring any allergy medication (EpiPen, Phenergan, etc.) as prescribed by your doctor to the congress and any associated function. Whilst due care is taken by the organisers and venue, individuals must take primary responsibility for their own health.
Internet access
Delegates should access their Eduroam accounts for Wi-Fi during the Congress. For any delegates who do not have Eduroam accounts there will be a limited number of Unifi guest network (UWA Wi-Fi network) passes available at the registration desk
Please note the Unifi network will be undergoing maintenance on Sunday 9 December and disruptions to the Wi-Fi network are expected. The rest of the week should not be affected.
useful information
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Special requirements Every effort has been made to ensure people with special needs are catered for. If you have not previously advised the secretariat of any special dietary requirement or accessibility requirements, please see the staff at the registration desk as soon as possible.
Functions, workshops and exhibition
Congress functions
All programmed congress functions are ticketed events and require registration to attend. Please see the staff at the registration desk if you wish to purchase additional tickets. Your function tickets (except for the Welcome Reception) can be found in your name badge holder.
Workshops
Various workshops will run over the course of the congress and require registration to attend. All functions are now full. Please refer to the workshop ticket in your name badge holder for workshop details.
Exhibition hours
The exhibition will be held in the Banquet Hall at the University Club during the following days:
Monday 10 December: 7.30am to 6.30pmTuesday 11 December: 7.30am to 5.30pm Wednesday 12 December: 7.30am to 3.30pm
Sundowner poster session
Posters are located in the Banquet Hall, Lower Colonnade and the Banquet Hall foyer and will be available for viewing from Monday - Wednesday. An official Sundowner Poster Session will be run on Monday 10 December with drinks and snacks. During the poster session on Monday we invite delegates to vote on their favourite poster, after which a People’s Choice Poster Competition, sponsored by IEEE, will be awarded.
Poster presenters will be available near their posters during this Sundowner Poster Session. Please refer to the poster program on page 53 for more information on presenting posters.
Poster Session
Date: Monday 10 DecemberTime: 5.30pm – 6.30pmLocation: Banquet Hall
Sponsored by
General
Delegate list
A delegate list with name, organisation and state is available to be viewed on the congress app. Delegates who opted out of being included on the delegate list will not appear.
Dress code
The dress for all congress sessions and social functions is smart casual.
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Lost and found
Please report any lost or found property to the registration desk.
Cloak room
There will be a cloak room available throughout the congress at the registration desk. Please note in regards to luggage there will be a limited amount of storage available so please confirm luggage store options with your hotel upon check in.
Mobile phones
As a courtesy to other delegates and speakers, please ensure all mobile phones are turned off or in ‘silent’ mode during all sessions and social functions.
Parking
There is a limited amount of paid parking available at the University of Western Australia. Delegates are recommended to park in long term parking spots along Hackett Drive and parking spots in and around the University Club P3. Please ensure you read all signage for fees and the maximum duration you can park.
For full details on venue parking please visit www.transport.uwa.edu.au/car-pooling/visitor
A car parking map can be found here: www.web.uwa.edu.au/__data/assets/pdf_file/0007/148948/UWA-PARKING-MAP_2017.pdf
Social media
Join the conversation by using the in-app social media page and adding the #AIPCongress2018 to your tweets, Facebook or Instagram posts.
Recording and photography
Unauthorised audio taping, video recording, digital taping or any other form of recording is strictly prohibited in congress sessions. Speakers who do not wish to have photographs taken of their slides must state this at the start of their presentation. The plenary sessions may be filmed or photographed for future educational opportunities by the Australian Institute of Physics.
By attending the congress, you agree to be photographed and/or filmed and give permission to the Australian institute of Physics and their affiliates, to use your likeness in commercial promotional and/or marketing materials. This permission is granted without expectation of compensation or other remuneration, now or into the future. Please contact Conference Logistics if you require further information.
Evaluation survey
An online evaluation survey will be available through the congress app at the end of the congress. It will also be emailed to all delegates following the congress. Delegates are encouraged to complete the congress evaluation as it assists in planning for future congresses.
Travel
AirlinesQantas 13 13 13 Virgin 13 67 89
TaxisBlack and White Cabs 13 32 22Swan Taxis 13 13 30
UberDownload the Uber app or visit the Uber website at www.uber.com
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Congress AppThe AIP2018 app offers you a range of great ways to maximise your Congress experience, including:
• Creating your own program for ease of reference
• Viewing all the presenter’s abstracts and biographies
• Taking part in the in-congress social media stream
• Direct messaging other attendees, exhibitors and the event organisers
• Receiving alerts of any changes
• And much more!
To download the app follow these steps:
1. Go to your device’s store and search for the Conlog app.
2. Download the Conlog app to your device (free to download).
3. Log in using the appcode (AIP2018) and your unique pin you received via email
If you have misplaced your unique pin, please see the friendly staff at the registration desk for assistance.
Social FunctionsWelcome Reception
Date: Sunday 9 DecemberTime: 6.00pm – 8.00pmVenue: Ground Floor Terrace, the University Club,
University Western Australia
One ticket included with full registrations. Additional tickets available from the registration desk at $45 inc GST.
Sponsored by
Sundowner Poster Session
Date: Monday 10 December Time: 5.30pm – 6.30pmVenue: Terrace, The University Club, University
Western Australia
All delegates welcome, refer to the Sundowner Poster Session program on page 53 . A People’s
Choice Poster Competition, sponsored by IEEE, will be run during the Sundowner Poster Session. Delegates are invited to vote via the Congress App for their favourite poster.
Sponsored by
Congress Dinner
Date: Wednesday 12 December Time: 7.30pm – 10.00pmVenue: Ground Floor Terrace, the University Club,
University Western Australia
The Congress Dinner will be a stand up, casual event within the grounds of the University of Western Australia. The dinner includes the presentation by Dame Julia Higgins.
One ticket included with full registrations. Additional tickets available from the registration desk at $75 inc GST.
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Engineering your Imagination: ANFF Short Course on Nanofabrication Technologies
Date: Sunday 9 December Time: 10.00am – 4.30pmVenue: Auditorium, the University Club,
University Western Australia
Delegates must register for this workshop, limited tickets available.
Diversity and Equity Group in Australian Physics (DE-GAP) Workshop (including brunch)
Date: Tuesday 11 December 2018Time: 10.00am - 1.00pmVenue: Seminar Room One, the University Club
Workshop FULL. Only registered delegates can attend. If you are on the waitlist, please see registration desk.
Sponsored by
Discussion: Theoretical and Mathematical Physics in Australia
Date: Tuesday 11 DecemberTime: 12.45pm – 1.15pmVenue: Arts Building, Room 10 [1.62]
Open to all delegates, spaces limited.
Physics in Education Group (PEG) Workshop (including High Tea)
Date: Tuesday 11 DecemberTime: 3.30pm - 4.30pmVenue: Club Restaurant, the University ClubTickets: $38 per person, limited tickets available
Sponsored by
The Secrets of Scientific Publishing
Workshop OneDate: Tuesday 11 DecemberTime: 1.30pm – 3.00pmVenue: Arts Building, Room 6 [G.62]
Workshop TwoDate: Wednesday 12 DecemberTime: 1.30pm – 3.00pmVenue: Arts Building, Room 6 [G.62]
Workshop FULL. Only registered delegates can attend. If you are on the waitlist, please see registration desk.
Teaching Nexus: Evolving Physics Education in our schools, Workshop One
Date: Wednesday 12 DecemberTime: 9.00am – 10.30amVenue: Physics Lab, University of Western
AustraliaFacilitator: Jason Dicker
Open to all delegates, spaces limited.
workshops
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Teaching Nexus: Evolving Physics Education in our schools, Workshop Two
Date: Wednesday 12 DecemberTime: 11.30am - 12.30pmVenue: Computer Lab, University of
Western AustraliaFacilitator: Dr David Hoxley
Open to all delegates, spaces limited
Teaching Nexus: Evolving Physics Education in our School - PEG Workshop 3
Date: Wednesday 12 DecemberTime: 3.30pm – 5.00pmVenue: Physics Building, 215 Lecture
TheatreFacilitator: Professor David Blair
Open to all delegates, spaces limited
Decadal Plan Town Hall Meeting
Date: Thursday 13 DecemberTime: 12.45pm – 1.15pmVenue: Arts Building, Room 6 [G.62]
Open to all delegates, spaces limited
External events of interest – Public Lecture
In addition to the AIP 2018 program, the Australian Institute of Physics together with the Institute of Advanced Studies are co-sponsoring a Public Lecture on the grounds of the University of Western Australia. The Public Lecture will feature Marcus Aspelmeyer and Professor Rainer Weiss.
IMPORTANT NOTE: Attendance at the Public Lecture is not included in AIP Congress registration. You must confirm your free registration with the Institute of Advanced Studies.
Date: Tuesday 11 December Time: 5.45pm – 6.15pm: Presentation
by Markus Aspelmeyer, What is a Phonton?
6.30pm – 7.30pm: Lecture by Professor Rainer Weiss, Gravitational Waves
Venue: Octagon Theatre, University Western Australia
Tickets: Free, must register at www.ias.uwa.edu.au/lectures/physics
Co-sponsored by the Australian Institute of Physics and the Institute of Advanced Studies
Institute of Advanced Studies
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plenary and keynote speakers
Professor Julia Yeomans
University of Oxford, UK
Julia Yeomans obtained her DPhil in Physics from the University of Oxford. She spent two years as a post-doc at Cornell University, then returned to the UK to become a Lecturer
at the University of Southampton. Soon after that, she joined the Rudolf Peierls Centre for Theoretical Physics at Oxford. She is currently Professor of Physics at Oxford and was instrumental in founding the Oxford Centre for Soft and Biological Matter. Julia works in theoretical and computational physics, particularly statistical physics, hydrodynamics, soft condensed matter and biological physics. Among her current research interests are active systems, complex fluids and the interactions of fluids with structured surfaces. She has been awarded the EPJE-Pierre Gilles de Gennes lecture prize and was elected a Fellow of the Royal Society in 2013.
ABSTRACT
Active Matter
Active materials such as bacteria, molecular motors and self-propelled colloids are Nature’s engines. They extract energy from their surroundings at a single particle level and use this to do work. Active matter is becoming an increasingly popular area of research because it provides a testing ground for the ideas of non-equilibrium statistical physics, because of its relevance to the collective behaviour of living creatures, from cells to starlings, and because of its potential in designing nanomachines.
Dense active matter shows mesoscale turbulence, the emergence of chaotic flow structures characterised by high vorticity and
motile topological defects. The chaotic nature of active turbulence means that it is likely to be difficult to harness its energy. Hence it is interesting to consider ways to `tame’ the turbulence, channelling the energy input into coherent flows. This can be done by screening hydrodynamics through confinement or friction, and I will describe flow patterns and defect trajectories in active matter in confined geometries.
Moreover, the ideas of active matter suggest new ways of interpreting cell motility and cell division. In particular recent results indicate that active topological defects may help to regulate turnover in epithelial cell layers and contribute to controlling the structure of bacterial colonies.
Nobel Laureate Professor Rainer Weiss
Massachusetts Institute of Technology, USA
Rainer Weiss (NAS) is a Professor Emeritus at Massachusetts Institute of Technology (MIT). Previously Dr. Weiss served as an assistant physics professor at Tufts University
and has been an adjunct professor at Louisiana State University since 2001. Dr. Weiss is known for his pioneering measurements of the spectrum of the cosmic microwave background radiation, his inventions of the monolithic silicon bolometer and the laser interferometer gravitational wave detector and his roles as a co-founder and an intellectual leader of both the COBE (microwave background) Project and the LIGO (gravitational-wave detection) Project. He has received numerous scientific and group achievement awards from NASA, an MIT excellence in teaching award, the John Simon Guggenheim Memorial Foundation Fellowship, the National Space Club Science Award, the
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Medaille de l’ADION Observatoire de Nice, the Gruber Cosmology Prize, and the Einstein Prize of the American Physical Society. Dr. Weiss is a fellow of the American Association for the Advancement of Science, the American Physical Society, The American Academy of Arts and Sciences; and he is a member of the American Astronomical Society, the New York Academy of Sciences, and Sigma Xi. He received his B.S. and Ph.D. in physics from MIT. Dr. Weiss is a member of the NAS and has served on nine NRC committees from 1986 to 2007 including the Committee on NASA Astrophysics Performance Assessment; the Panel on Particle, Nuclear, and Gravitational-wave Astrophysics; and the Task Group on Space Astronomy and Astrophysics.
Sponsored by
ABSTRACT
The beginnings of gravitational wave astronomy
The first detection of gravitational waves was made in September 2015 with the measurement of the coalescence of two ~30 solar mass black holes at a distance of about 1 billion light years from Earth. The talk will provide a review of more recent measurements of black hole events as well as the first detection of the coalescence of two neutron stars and the beginning of multi-messenger astrophysics. The talk will end with a discussion of some prospects for the field.
Professor Michael Wiescher
University of Notre Dame, USA
Michael Wiescher, received his PhD in 1980 at the University of Münster, Germany. After postdoctoral positions at Ohio State University (USA), Caltech (USA), and the University of
Mainz (Germany), he joined the faculty at the University of Notre Dame (USA) to build a program in experimental nuclear astrophysics. In 2003 he founded the Joint Institute for Nuclear Astrophysics (JINA), which is now an international research organization including more than 100 research institutions worldwide. For the period of 2003 to 2014, he served as JINA director. In 2010 he became also the director of the Notre Dame Nuclear Science Laboratory (NSL) at Notre Dame. Wiescher’s research focuses on the experimental and theoretical study of stellar reaction rates for quiescent and explosive stellar environments. More recently Wiescher was instrumental in the installation of CASPAR, the first US deep underground accelerator at Homestake Mine in South Dakota which concentrates on the study of reactions important for stellar helium burning.
In 2003 Wiescher was awarded with the Hans Bethe Prize of the American Physical Society for his work on the rapid proton capture process that drives thermonuclear explosions in accreting binary systems. In 2018 he was awarded the 2018 Prize for Laboratory Astrophysics by the American Astronomical Society for “his leading contributions to the experimental foundation of nuclear astrophysics”. Presently he serves as the Heraeus Guest Professor for Physics at the University of Frankfurt, Germany.
ABSTRACT
Neutron Sources in Stars and the Laboratory
Neutrons play a critical role for the origin of the elements above iron. Next to the r-process in explosive stellar environments, the s-process in quiescent stellar burning is key for the heavy element nucleosynthesis.
Reliable modelling of these processes requires a detailed understanding of stellar neutron sources, the cross section and the impact of hot stellar plasma conditions on the reaction rate. A number of experiments will be presented which aim at the study of the most critical stellar neutron sources at the CASPAR deep underground accelerator
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laboratory and the NIF National Ignition Facility for studying these reactions at stellar burning conditions.
Professor Chandralekha Singh
University of Pittsburg, USA
Chandralekha Singh is a professor in the Department of Physics and Astronomy and the Director of the Discipline-based Science Education Research Center at the University of Pittsburgh.
She obtained her Ph.D. in theoretical condensed matter physics from the University of California Santa Barbara and was a postdoctoral fellow at the University of Illinois Urbana Champaign, before joining the University of Pittsburgh. She has been conducting research in physics education for two decades. She was elected to the Presidential-line of the American Association of Physics Teachers and is currently serving as the Vice-President. She was one of the two team leaders of the US team to the 6th International Conference on Women in Physics (ICWIP) in Birmingham UK in 2017 and is an editor of the 6th ICWIP Proceedings. She held the Chair-line of the American Physical Society Forum on Education from 2009-2013 and was the chair of the editorial board of Physical Review Special Topics Physics Education Research from 2010-2013. She has co-organized two physics education research conferences in 2006 and 2007 and was the co-chair of the 2010 Gordon Conference on Physics Research and Education. She co-chaired the first conference which brought together physicists, chemists and engineers from various engineering departments to discuss the future of materials science and engineering education in 2008. She was the co-organizer of the first and third conferences on graduate education in physics in 2008 and 2017 and chaired the second conference on graduate education in physics in 2013. She is a Fellow of the American Physical Society, American
Association of Physics Teachers and the American Association for the Advancement of Science.
ABSTRACTChandralekha Singh1*1 Department of Physics and Astronomy, University of Pittsburgh,
Pittsburgh, PA 15260 United States of America* [email protected]
How to strengthen physics by making it inclusive
The field of physics has historically lacked diversity, and efforts to make it inclusive have been limited in their success. Despite some efforts to encourage women to pursue a career in physics, the percentage of women majoring in physics remains low. There are several frameworks that focus on the dearth of women in physics, which take into account motivational characteristics, e.g., interest in physics, self-efficacy, mindset about intelligence, sense of belonging, and identity as a physicist. We performed a longitudinal analysis of these motivational characteristics of female and male college students in large physics courses along with their performance in those courses. Among other findings, our data suggest that female students had lower physics self-efficacy than male students, even when controlling for performance. Moreover, this self-efficacy gap continued to grow throughout the college introductory physics course sequence. Based upon these findings, we implemented short in-class activities that were designed to improve the inclusivity in the physics courses and address issues related to students’ sense of belonging, self-efficacy and intelligence mindset. We found that female students in physics classes who participated in these activities performed significantly better than those who did not, and they were also less likely to withdraw from the courses.
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Professor Susan Scott
Australian National University
Professor Susan Scott is Professor of Theoretical Physics at The Australian National University (ANU). She has a BSc (Hons) majoring in Pure Mathematics from Monash University and a
PhD in Mathematical Physics from The University of Adelaide. As the recipient of a Rhodes Fellowship, she then spent 4 years at The University of Oxford working with the research group led by Prof Sir Roger Penrose, before returning to Australia to take up a research fellowship at the ANU. She has been a faculty member in Physics at the ANU since 1998.
Susan’s research field is general relativity and gravitational physics. She is a leading international expert in the singularity structure of space-time, including the singularities at the heart of black holes as well as cosmological singularities at the beginning and end of the Universe. In 1998 she initiated and led the Australian endeavour in gravitational wave data analysis forming a collaboration with LIGO ultimately leading to participation in the discovery of gravitational waves in 2015. Susan is an author of more than 250 research papers and a definitive book on black holes. She is a fellow of the Australian Academy of Science and the European Academy of Sciences and a former President of the Australasian Society for General Relativity and Gravitation. She is a Chief Investigator with the ARC Centre of Excellence for Gravitational Wave Discovery (OzGrav).
Dr Paul Lasky
Monash University
Paul Lasky is a Senior Lecturer and ARC Future Fellow in the School of Physics and Astronomy at Monash University. He earned his PhD from Monash University in 2008, before
being granted an Alexander von Humboldt Fellowship, which he took up at the University of Tuebingen, Germany. He then spent three years as a postdoctoral research fellow at the University of Melbourne, before returning to Monash. Paul’s research field is gravitational physics and high-energy astrophysics. He is an active member of the LIGO Scientific Collaboration that, in 2015, made the first discovery of gravitational waves from colliding black holes. In 2018, Paul won the Australian Academy of Sciences Pawsey medal, recognising outstanding research in physics by scientists up to ten years post PhD.
ABSTRACTSusan Scott1* and Paul Lasky2*1 Australian National University2 Monash University* [email protected]
The Advanced LIG0 gravitational wave detectors have so far undertaken two observing runs, 01 and 02, with spectacular results. At the start of 01 in September 2015 the hundred year quest to directly detect gravitational waves on Earth was quickly realised with the detection of a clear and strong gravitational wave signal coming from the cataclysmic collision of two large black holes in a binary system some 1.3 billion years ago. Towards the end of 02 in August 2017 we achieved the long- anticipated discovery of two orbiting neutron stars in a binary system in the final moments of inspiral leading up to their violent collision. Within 1.7 seconds of the coalescence a gamma-ray burst was detected immediately confirming the long-held hypothesis that neutron star collisions are the progenitors of our almost daily detections of short gamma-ray bursts. Neutron stars are matter, so unlike when two black holes collide, they broadcast electromagnetic as well as gravitational radiation, and the alert sent out by LIG0 caused an avalanche of telescopes and satellites around the world to interrupt their observing schedules to attempt to pinpoint and image the event. This was the birth of the era of multi messenger gravitational wave astronomy.
Since the end of 02, and while upgrading the instruments in preparation for 03, we have had the opportunity to analyse, in greater depth, the data from both 01 and 02 searching for coalescences
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of binary systems of black holes and neutron stars. In this talk we will announce the full catalogue of these results from both observing runs and explain the significance of these discoveries for physics.
Professor Monika Ritsch-Marte
Medical University of Innsbruck, Austria
Monika Ritsch-Marte received her M.Sc. in Physics from the University of Innsbruck in 1984 and her PhD in Quantum Optics from the Waikato University in New Zealand (under the
supervision of D.F. Walls) in 1988. After several PostDoc projects (Boulder/Colorado, Milano, Helsinki), and after completing her Habilitation at the Institute of Theoretical Physics in Innsbruck, she accepted the Chair of Biomedical Physics at the Medical University in Innsbruck in 1998 where she founded a Biomedical Optics group. Her current research interests include holographic optical tweezers, digital holographic microscopy and linear and non-linear Raman microscopy. She has received numerous research grants and awards, including an ERC Advanced Grant and the Boltzmann Award of the Austrian Physical Society. She is a member of the Austrian Academy of Science and a Fellow of the Optical Society of America.
ABSTRACT1 Division for Biomedical Physics, Medical University of Innsbruck,
A-6020 Innsbruck, Austria* mo nika.rit [email protected]
In recent years optical wavefront shaping by means of spatial light modulators (SLMs), such as deformable mirrors, digital micro-mirror devices or liquid crystal (LC) panels, has become a powerful tool in Biophotonics [1-2]. “Holographic optical tweezers” are well-known and widespread. But an SLM can also be integrated into optical imaging systems, making the microscope programmable and adaptable with respect to the needs of a specific sample. Iterative search algorithms are used to find the desired phase mask patterns.
A particular strength of the Synthetic Holography [3] approach with programmable phase masks is the possibility to multiplex, which means that one can ‘pack’ several tasks into one computer-generated hologram. One can, for instance, create images which are composed of sub-images belonging to different microscopy modalities, to different depths inside the volumetric sample, or to different parameter settings. Diffractive phase masks normally operate in the modulation range of 0 to 2π. If one relaxes this condition, allowing for multiple-2π phase shifts, several computer- generated holograms can be read out at different wavelengths from one and the same voltage pattern applied to the LC panel. In this way holographically modified imaging (in the visible) can be accommodated in the same phase mask that is used for holographically controlled trapping (in the near-infrared).1. References[1] H. Rubinsztein-Dunlop et al., “Roadmap on structured light”, Journal
of Optics, 19, 013001, 2016.[2] C. Maurer, A. Jesacher, S. Bernet, and M. Ritsch-Marte, “What
spatial light modulators can do for optical microscopy”, Laser & Photonics Reviews 5, 81-101, 2011.
[3] A. Jesacher, and M. Ritsch-Marte, „Synthetic holography in microscopy: opportunities arising from advanced wavefront shaping”, Contemporary Physics, 57, 46-59, 2016.
Professor Jian-Wei Pan
University of Science and Technology of China
Jian-Wei Pan, born on March 11, 1970 in Dongyang, Zhejiang province. He obtained his Bachelor and Master degrees of Theoretical Physics from University of Science and Technology of
China (USTC) in 1992 and 1995. In 1996, he went abroad for studying in Austria, and obtained his Ph.D. degree of Experimental Physics from the University of Vienna in 1999. In 2001, he was appointed as the full professor of physics by USTC. In 2011, he was elected as the academician of Chinese Academy of Sciences (CAS). In 2012, he was elected as the World Academy of Science (TWAS) Fellow. The research of Jian-Wei Pan focuses on quantum optics, quantum information and quantum foundations. As one of pioneers in experimental quantum information science, he has
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accomplished a series of profound achievements. Due to his numerous progresses on quantum communication and multi-photon entanglement manipulation, quantum information science has become one of the most rapidly developing fields of physical science in China in recent years.
Sponsored by
ABSTRACT
Breaking the Wall to Quantum Engineering
Quantum information science and technology are emerging and fascinating technologies formed by combining coherent manipulating of individual quantum systems and information technology, which enables secure quantum cryptography (quantum communication), super-fast quantum computing, revealing laws of complex physical systems (quantum simulation), and improving measurement precision (quantum metrology) etc., to beat classical limits. This presentation will highlight a few of our progress along quantum communication, quantum computing, quantum simulation and quantum metrology, based on photons and atoms.
For fundamental aspect, one is led to the conception of quantum entanglement when apply quantum superposition principle to multi-party system. The appeared ‘spooky action at a distance’ phenomena referred by Einstein, is often explained by seemingly reasonable assumptions of “local realism”. The inequalities proposed by John Bell and others provide immediate tests for correctness of quantum mechanics. Many efforts are addressing loophole-free tests of Bell inequalities, which tries to close various loopholes, in which some of loopholes are still needed to be addressed including freedom of choice loophole, the collapse locality loophole. Well, the final test is on-going, many developed ground-breaking technologies for coherent manipulation of quantum systems offers elegant and feasible solutions for satisfying increasing needs of computational power and information security.
Based on state-of-the-art fiber technology and rich fiber resources, we have managed to achieve prevailing quantum communication with realistic devices in real-life situation. This constitutes demonstrations by developing decoy state scheme over 100km firer extending its employment in the metropolitan area network, as well as maintaining Measurement Device Independent QKD (MDI-QKD) over 400km. At the meantime, we are also developing practically useful quantum repeaters that combine entanglement swapping, entanglement purification, efficient and long-lived quantum memory for the ultra-long distance quantum communication. Another complementing route is to attain global quantum communication based on satellite. We have spent the past decade in performing systematic ground tests for satellite-based quantum communications. Our efforts finally ensure a successful launch of the Micius satellite. Three major scientific missions have been finished, which includes achieving QKD between satellite and ground station at thousand kilometer scale, achieving satellite-based entanglement distribution between two ground stations separated by a distance of 1200 km, achieving quantum teleportation from ground to satellite over 1400 km. Very recently, using Micius satellite as a trustful relay, the intercontinental QKD between Beijing and Vienna over a distance of 7600 km has also been realized.
In the areas of optical quantum information processing, we have maintaining a series of technological advances for generating, manipulating and applications of multi-photon entanglement. Over the past decade, we have performed proof-of-principle demonstrations for a number of key quantum algorithms including the Grover’s searching algorithm, Shor’s factoring algorithms, quantum machine learning, topological quantum error correction, and particularly a recent photonic quantum computer to solve the Boson sampling problem.
Future Prospects include building a global quantum communication infrastructure with satellite and fiber networks, quantum computing by employing manipulating coherently more than 50 qubits to exceed the simulating power of
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the current best supercomputers and reaching “quantum supremacy”, Bell-test experiment with human-observer at a distance on the order of one light-second.
Professor Willie Padilla
Duke University, USA
Willie Padilla has been in the metamaterials field since 2000, when he co-authored the first paper on negative index materials with Smith. Padilla is particularly well known for his work at
terahertz (THz) frequencies, as well as in the area of active and dynamically controlled metamaterials. While working under a Director’s Postdoctoral Fellowship at Los Alamos National Laboratory, Padilla led efforts to demonstrate dynamic tuning of a semiconductor hybrid metamaterial by photodoping and voltage control. Both of these key experiments are now widely recognized and cited. Padilla’s lab specializes in the THz, infrared, optical and magneto-optic properties of novel materials utilizing various spectroscopic methods, including Fourier transform spectroscopy and ellipsometry. Padilla’s recent interests include tailoring the emissivity of objects with metamaterial coatings, and the use of active metamaterial arrays as components in THz and infrared imaging systems.
ABSTRACT
Exotic Physics with All-Dielectric Metasurfaces
Willie J. Padilla1 *1 Department of Electrical and Computer Engineering, Duke University,
Durham, NC 27708, United States of America* [email protected]
All-dielectric metasurfaces are a useful platform to investigate a myriad of unconventional physical scattering responses ranging from high absorption and Huygens’ reflect arrays to bound-states-in-the-continuum (BIC). We experimentally demonstrate several all-dielectric metasurfaces
which realize: high transmission Huygens’ structures, high absorptive devices for imaging, and dynamic surfaces with optical control. The all-dielectric metasurfaces we explore consists of arrays of high dielectric geometrical shapes, and may support a number of eigenmodes of either odd or even symmetry. [1,2] We show that the geometry of the array may be used to tune the oscillator strength and resonant frequency location of the modes. The physics underlying the nature of the electromagnetic responses is described with temporal coupled mode theory and waveguide analysis.
1. Simulation
The metasurface is simulated using full-wave 3D electromagnetic software, and use the frequency domain solver (finite element method). We use the two-port simulations, where the two ports were set symmetrically with respect to the mid-plane of the unit cell, and periodic boundaries were used on all sides. Eigenvalue simulations are also performed permitting extraction of the modes complex frequency. Metasurfaces may be simulated with and without material loss, which permits us to determine the individual pieces of scattering and dissipative loss in the structures. We use silicon as the base material for our all-dielectric metasurfaces, and – in some studies – use a slight boron doping. The metasurfaces were fabricated by reactive deep ion etching and we use pdms (polydimethylsiloxane) as a support substrate. The all-dielectric metasurfaces are characterized by various methods including a vector network analyser, terahertz time-domain spectroscopy, and Fourier transform spectroscopy.
2. Tunable Metasurfaces
We also demonstrate dynamic control of the amplitude and phase of transmitted light. Two different optical sources are used – a 980nm LED and an ultra-fast titanium sapphire laser producing radiation at a wavelength of 800nm. We obtain a transmitted phase of 120 degrees with transmission modulation of over 99.9%. Theoretical analysis and numerical simulations
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coupled with temporal coupled mode theory indicate that the tuning is due to a substantial increase in the material dissipation rate of the odd eigenmode of the structure. This serve to lift the degeneracy of the odd and even eigenmodes, while simultaneously destroying the critical coupled state.
Our all-dielectric metasurface is an ideal platform to investigate unconventional physics in electromagnetic wave absorbing systems. The demonstration of a dynamic all-dielectric structure highlights a new strategy for controlling metasurfaces, and highlights a potential path to achieve reconfigurability for future applications.
Figure 1: Left panel show a photograph of the suspended silicon metasurface array. Middle panel shows a computer rendered depiction of optical photodoping of the array. Right panel show an SEM image of the fabricated silicon metasurface array.
3. References[1] X. Liu, K. Fan, I. V. Shadrivov, W. J. Padilla, “Experimental realization
of a terahertz all-dielectric metasurface absorber,” Opt. Express, vol. 25, p. 191, 2017.
[2] K. Fan, J. Y. Suen, X. Liu, W. J. Padilla, “Degenerate critical coupling in
all-dielectric metasurface absorbers,” Optica, vol. 4, p. 601, 2017.
Professor Teri Odom
Northwestern University, USA
Teri W. Odom is Charles E. and Emma H. Morrison Professor of Chemistry, Professor of Materials Science and Engineering, and Associate Director of the International Institute for
Nanotechnology (IIN) at Northwestern University. She is an expert in designing structured nanoscale materials that exhibit extraordinary size and shape-dependent optical properties. Odom has received numerous honors and awards. Select ones include being named a U.S. Department of Defense Vannevar Bush Faculty
Fellow; a Radcliffe Institute for Advanced Study Fellowship at Harvard University; an NIH Director’s Pioneer Award from the National Institutes of Health; the MRS Outstanding Young Investigator Award; an Alfred P. Sloan Research Fellowship; an NSF CAREER Award; and a David and Lucile Packard Fellowship in Science and Engineering. She is a Fellow of the American Chemical Society, Materials Research Society, and the Royal Society of Chemistry. Odom is the founding Executive Editor of ACS Photonics.
ABSTRACT
Reconfigurable Flat Nanoparticle OpticsTeri W. Odom1
1 Department of Chemistry, Department of Materials Science and Engineering, Northwestern University, Evanston, IL 60208 USA
Over the past decade, significant progress in controlling light-matter interactions at the nanoscale has been achieved. Most of the advances, however, have relied on fixed systems limited to the as-fabricated or as-synthesized dielectric or metallic nanostructures. This talk will discuss how the ability to program or realize a plasmonic response on demand may address key challenges in future nanoscale optics. We will highlight how the fabrication and scalability of responsive nano-optical flat optics can be used in diverse applications from stretchable nano-lasing to reconfigurable lensing and imaging.
Professor Thomas Krauss
University of York, UK
Prof Thomas Krauss is Professor of Photonics at the University of York, UK. He is interested in fundamental and applied concepts of light-matter interaction in photonic nanostructures and he has
led a number of EU and EPSRC projects in various aspects of photonic crystal devices, such as slow light, optical interconnects and, more recently, novel photonic concepts for biosensing. He has published 300 refereed journal articles and 6 patents. Prof Krauss is a Fellow of the Institute of Physics, the Royal Society of
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Edinburgh and the Optical Society. In 2015, he was awarded a Royal Society Wolfson Merit Award.
ABSTRACT
Photonic Crystals and Nanostructures – Phoenix of Photonics?Thomas F Krauss Department of Physics, University of York, York YO10 5DD, [email protected]
Photonic crystals were invented in the late 1980’s as a tool for exercising spontaneous emission control. By introducing the language of solid state physics into photonics, they have transformed the way we think about diffractive optics. As a result, there was much excitement and a lot of new activity emerged in the 1990’s and 2000’s. Photonic crystals were eventually replaced by other “hot topics”, yet many of these topics are actually founded on similar principles. In particular, the Bloch mode formalism, which is a key feature of the bandstructure description of the photonic crystal paradigm, underpins many modern research areas, including metalenses, label-free resonant imaging and nanostructures for light trapping.
The idea of Bloch modes dates back to 1929, when they were first described in the context of electron wavefunctions in crystal lattices [1]. Bloch modes can be understood as interference patterns arising from multiply Bragg-scattered waves. Formally, they are described as follows,
So, a Bloch mode describes the interference pattern between a plane wave with wavevector k and the sum over all possible lattice vectors G.
1. Metasurfaces
Metasurfaces are nanostructured thin films that can imprint an arbitrary phase profile onto a given beam; they can do this by creating localised resonances or by adding specific wavevectors to the beam, thereby invoking the Bloch formalism. Metalenses in particular open new possibilities in miniaturised optical systems with the smartphone market in mind [2], especially since high performance silicon-based structures have now
also been demonstrated in the visible [3, 4].
Figure 1. Illustration of a silicon metalens with ultra- high numerical aperture [4].
2. Sensing and Imaging
Metasurfaces have now also entered the sensing domain; sensing often relies on spectral information, be it via fluorescence, absorption spectroscopy or by tracking resonances. By recognising the equivalence of wavelength
and lattice constant that is inherent in the Bloch mode formalism, it is possible to translate spectral information into spatial information. This ability has been demonstrated with the chirped guided mode resonance approach [5] and the “molecular barcoding” method [6]. The related technique of resonant imaging tracks resonances locally to extract information on e.g. cell adhesion [7] or the secretion of proteins [8], all in real time and with the possibility to use clinical samples because of the label-free nature of the process.
3. Light trapping
The final example comes from yet another domain, namely light trapping, which is used to enhance the absorption in thin film solar cells. By exploiting Bloch modes and manipulating their respective phases, we can selectively excite the modes that most effectively contribute to the absorption of sunlight [9].
4. References[1] F. Bloch, “Über die Quantenmechanik von Elektronen in
Kristallgittern”, Zeitschrift f. Physik 52, pp. 555-600, 1929. [2] M. Khorasaninejad, W.T. Chen, R.C. Devlin, J. Oh, A. Zhu, and F. Capasso, ”Metalenses at visible wavelengths: Diffraction-limited focusing and subwavelength resolution imaging” Science 352, pp.1190−1194, 2016.
[3] Z. Zhou, J. Li, R. Su et al., “Efficient Silicon Metasurfaces for Visible Light”, ACS Photonics 4, pp. 544-551, 2017.
[4] H. Liang, Q. Lin, X. Xie et al., “Ultrahigh numerical aperture metalens
23rd Australian Institute of Physics Congress – SPONSORSHIP & EXHIBITION PROSPECTUS24
at visible wavelengths, Nano Lett. 18, pp. 4460–4466, 2018.[5] G. Triggs, Y. Wang, C. Reardon, M. Fischer, G.J.O. Evans and T.F.
Krauss, “Chirped guided-mode resonance biosensor”, Optica 4, pp.229-234, 2017.
[6] A. Tittl, A. Leitis, M. Liu et al., “Imaging-based molecular barcoding with pixelated dielectric metasurfaces” Science 360, pp. 1105–1109, 2018.
[7] Y. Zhuo, J.S. Choi, T. Marin, H. Yu, B.A. Harley and B.T. Cunningham, “Quantitative analysis of focal adhesion dynamics using photonic resonator outcoupler microscopy (PROM)”. Light Sci. Appl. 7, Art. 9, 2018.
[8] J. Juan-Colás, I. Hitchcock, M. Coles, S. Johnson and T.F. Krauss, “Quantifying single cell secretion in real time using resonant hyperspectral imaging” unpublished.
[9] E.R. Martins, J. Li, Y. Liu, V. Depauw, J. Zhou and T.F. Krauss, “Deterministic quasi-random nanostructures for photon control” Nature Communications 4, Art. 2665, 2013.
Professor Garth Illingworth
UC Santa Crus/Lick Observatory
Garth Illingworth is a Professor at the University of California, Santa Cruz. He was a Miller Fellow at UC Berkeley, the Deputy-Director of the Space Telescope Science Institute, and in 2010 was
awarded an honorary Doctor of Science degree at the University of Western Australia. He is the recipient of the 2016 American Astronomical Society Lancelot M. Berkeley New York Community Trust Prize for his work on The most-distant galaxies viewed with Hubble.
He has been exploring for the earliest galaxies in the first 1-2 billion years of the Universe with the world’s most powerful telescopes, the Hubble and Spitzer space telescopes and the Keck telescope on Mauna Kea. Central to his research has been to use Hubble to look back through 96% of all time to find and measure incredibly faint, young galaxies that are the seeds that have grown into galaxies today, like our Milky Way.
A recent highlight of this research is the discovery of the most distant, and earliest, galaxy ever seen, just 400 million years after the Big Bang at redshift z=11.1. The publications from this research on the most distant and earliest galaxies, with an international team of scientists, have consistently been among the most highly
cited papers on galaxies in the early universe (see firstgalaxies.org). The latest results on the sizes of distant galaxies and on the star formation rate density at z~10, combined with the latest Planck results that indicate that reionization began around redshift z~10, have significant implications for the detectability of the “first galaxies” with the James Webb Space Telescope (JWST). He recently gave the Lancelot M. Berkeley Prize plenary talk at the 2017 meeting of the American Astronomical Society.
ABSTRACT
Garth Illingworth Department of Astronomy University of California Santa Cruz
The Hubble Space Telescope has revolutionized the discovery and study of the earliest galaxies through its exploration of the Universe in the first billion years after the Big Bang. I will discuss what we have learned about galaxies during that epoch at redshift z>6 from the remarkable Hubble and Spitzer Space Telescope imaging surveys, as well as detections of gravitationally-lensed galaxies behind massive clusters of galaxies. Lensing clusters provide extraordinary opportunities for characterizing the faintest earliest galaxies, but also present extraordinary challenges. Analysis of early galaxies found in deep cluster images reveal compact star-forming regions that, remarkably, can be as small as today’s globular clusters and dwarf galaxies.
The results from deep surveys with Hubble, combined with the recent results on the Cosmic Microwave Background from the Planck space telescope, indicate that galaxies dominated the UV ionizing flux that reionized the Universe. One of the greatest surprises came from the Hubble discovery of very luminous galaxies at redshifts z~11 to z~8, just 400 to 650 million years after the Big Bang. Hubble and Spitzer have encroached on James Webb Space Telescope (JWST) territory by looking back through 97% of all time to confirm a z~11.1 galaxy. This is far beyond what we ever expected Hubble and Spitzer could do.
Twenty years of astonishing progress with Hubble and Spitzer leave me looking to JWST to provide
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even more remarkable exploration of the realm of the first galaxies. I will give an update on JWST’s progress towards its launch, and then I will discuss how the latest Hubble and Spitzer results on the sizes of star-forming regions in distant galaxies, on the star formation rate at redshift z~10, and from Planck indicating that reionization began around z~10, together have significant implications for the detectability of the “first galaxies” with JWST.
Maureen Frank
Diversity and Equity Group in Australian Physics Keynote
Leading international business woman – former head of Mergers and Acquisitions for Aon in UK and Australia, Telstra Business Woman of the Year,
BRW Rising Star and founder of emberin 10 years ago.Diversity and inclusion expert – Maureen, with her ROI obsession has established over a dozen diversity councils in major organisations (most of which were the executive team), personally coached CEO’s on their journey and supported her client to achieve results, including supporting a number of organisations increase the number of women in senior leadership in record time: a telco (from 6% to 31% in 2 years), a mining company (from 8% to 23% in 2 years), a bank (from 11% to 33% in 3 years), a waste management business (from 8% to 19% in 1 year) and many more examples.
Speaker, entertainer and thought leader – she has spoken at conferences in five continents around the world.Bestselling author, writer and creator – her books, publications and programs have been used by over 50,000 people worldwide. Global Award winner – her clients have won multiple awards, acknowledging emberin as the cornerstone of success, including two global
Catalyst Awards in New York. Pioneer and challenger – Maureen pioneered the scalable engagement of men in the diversity and inclusion conversation globally, supported founding the Male Champions of Change (CEO’s of major companies supporting gender diversity) and engages CEO’s and leaders every week in understanding how inclusion enables not just diversity – but also engagement, innovation and collaboration.
Tara Fortier
National Institute of Standards and Technology, USA
Dr. Tara Fortier is a Project Leader at the National Institute of Standards and Technology and serves as Graduate Faculty at the University of Colorado, Boulder. Her research is focused on the development and application of optical frequency combs for high precision atomic clock comparisons and ultra low-noise microwave generation. She received her Ph.D at JILA/ University of Colorado on the development of phase-stabilized ultra-fast lasers for quantum coherent control experiments. As a Postdoctoral Director’s Fellow at Los Alamos National Laboratory she performed optical atomic clock comparisons as a means to search for time variation of fundamental constants and violations of physical laws. She was awarded the 2009 European Time and Frequency Forum Young Scientist Award for her contributions to optical frequency comb development, was a successful champion in the DARPA PULSE Program, and has served as the government evaluator for the DARPA EPHI and STOIC programs. Finally, Dr. Fortier serves on the NIST board of directors for Women in STEM and is committed to serving
and advancing the representation of women and minorities in physics and photonics.
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BIO/ABSTRACT
Optical networks and clock comparisons at the 18th-decimal place
Tara Michele FortierNational Institute of Standards and Technology, 325 Broadway MS 847,
Boulder CO 80302 USADepartment of Physics, University of Colorado, Boulder CO 80309 USA* [email protected]
The generation of frequency references from quantum mechanical systems have been instrumental in enabling a timing stability and resolution that are unattainable using classical architectures. Atomic clocks, which produce frequency in a deterministic way, are used as precision time-keepers in atomic time-scales, as frequency references in precision physical measurements, and are necessary for positioning, timing and synchronization in global networks [1]. Atomic clock transition frequencies are now being reported with an uncertainties approaching 1 part in 10^18, achieved by harnessing the decreased uncertainty and instability of optical as opposed to microwave transitions [2]. This exquisite resolution and the transition frequencies’ dependence on physical laws and fundamental constants make atomic clocks elegant systems for tests of fundamental physics. In this talk I will discuss the results from recent measurement campaigns between the National Institute of Standards and Technology and the University of Colorado to compare optical atomic clock frequencies to the 18th digit. I will also describe the optical networks that connect and facilitate the precision measurements and describe how the clock network is being used for searches of ultra-light dark matter [3].
1. References[1] A. Bauch, “Caesium atomic clocks: function, performance and
applications,” Meas. Sci. Technol. 14, pp. 1159-1173 (2003).[2] W. F. McGrew et al, “Atomic clock performance beyond the geodetic
limit,” arXiv:1807.1128 arXiv:1807.1128, July 2018.[3] A. Arvanitaki, J. Huang, J. and K. Van Tilburg, “Searching for dilaton
dark matter with atomic clocks,” Phys. Rev. D 91, 015015 (2015).
Professor Philippa Browning
University of Manchester, UK
Philippa Browning is a Professor at the Jodrell Bank Centre for Astrophysics at the University of Manchester in the UK. Following a degree in Mathematics at Cambridge and a PhD at St
Andrews, she became the first woman appointed to lecture in Physics at Manchester. Her research is concerned with the mysterious fourth state of matter – plasma. She uses mathematical modelling and computer simulation to understand the complex interactions between plasmas and magnetic fields, with application both to the atmosphere of the Sun and to the generation of energy by nuclear fusion. A main focus of her research is to exploit synergies between these apparently very different fields. Philippa enjoys teaching undergraduates and postgraduates in physics and astronomy, conveying the excitement of the subject to the next generation. She is also passionate about communicating to the general public and is involved in many public talks and events. She was awarded the Chapman Medal of the Royal Astronomical Society in 2016.
Sponsored by
ABSTRACT
Self organisation by magnetic reconnection in solar and fusion plasmas
Philippa K Browning1
1 Jodrell Bank Centre for Astrophysics, School of Physics and Astronomy, University of Manchester, Manchester M13 9PL, UK
Magnetised plasmas in the laboratory and astrophysics are complex systems, and the concept of “self-organisation” provides a powerful tool for understanding and predicting many phenomena. Magnetic reconnection is a process which reconfigures the magnetic field topology and allows rapid release of free magnetic energy. A magnetised plasma undergoing turbulent
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reconnection is predicted to relax to a state of minimum magnetic energy whilst conserving magnetic helicity [1]. Recent advances in relaxation theory shed new light on how solar flares are triggered and accelerate charged particles to high energies, and how the solar corona is heated to high temperatures, as well as how spherical tokamak plasmas can be formed, and the nonlinear development of instabilities in the edge of tokamaks. This talk focuses on reconnection and self-organisation in twisted magnetic flux ropes, which are fundamental structures in fusion and astrophysical plasmas.
1. Relaxation and reconnection in twisted flux ropes: solar flares and tokamak edge-localised modes
Magnetic energy may be stored in twisted magnetic flux ropes in the solar corona, and the release of this stored energy may result in large-scale solar flares or smaller “nanoflares” associated with heating of the solar corona. The ideal kink instability in a twisted flux rope triggers relaxation, through reconnection in fragmented current sheets during the nonlinear phase of the instability.
This results in plasma heating and acceleration of non-thermal particles as the magnetic field relaxes to a lower energy state [2]. Building on idealised models of relaxation in cylindrical flux ropes, a realistic model of an unstable twisted coronal loop is developed, representing a confined solar flare [3]. Exploiting a combination of 3D magnetohydrodynamic (MHD) simulations and test- particle modelling, the observational signatures of both thermal plasma and energetic non-thermal particles can be predicted, providing a means to detect twisted magnetic fields through X-ray and radio observations. Similarly, current-driven instabilities during Edge Localised Modes in tokamaks may trigger localised relaxation of the edge plasma, and a relaxation-based model of this process explains some surprising experimental observations [4].
2. Self organisation of multiple flux ropes in spherical tokamaks and the solar corona
Two or more twisted flux ropes may interact and merge, leading to magnetic self-organisation. Models of merging plasma flux ropes using Hall-MHD simulations and analytical relaxation theory provide good agreement with experimental observations of merging-compression formation in the MAST spherical tokamak [5]. An avalanche of heating events in stable twisted flux ropes may be triggered by instability of a single unstable flux rope, with implications for solar coronal heating. For the first time, such a heating avalanche, predicted by cellular automaton models, is demonstrated from first principles by 3D MHD simulations [6]. This may be described through a relaxation model, showing that multiple flux ropes self- organise into a large-scale coherent structure [7]. Recently, this model has been extended to consider energetic particles and external driving.
3. References[1] J.B. Taylor, “Relaxation of toroidal plasma and generation of reverse
magnetic fields”, Phys. Rev. Lett., vol. 33, pp. 1139-1141, 1974.[2] P.K. Browning and R. Van der Linden, “Solar coronal heating by
relaxation events”, Astron. Astrophys., vol. 400, pp. 355-367, 2003.[3] R.F. Pinto, M. Gordovskyy, P.K. Browning and N.Vilmer, “Thermal and
non-thermal emission from reconnecting coronal loops”, Astron. Astrophys., vol 585, A159, 2016.
[4] Y. Liang, C. Gimblett, P.K. Browning et al, “Multi- resonance effect in Type-I Edge Localised Mode control with low-n fields on JET”, Phys. Rev. Lett., vol. 105, 065001, 2010
[5] P.K. Browning, “Two fluid and MHD modelling of magnetic reconnection in the MAST spherical tokamak and the solar corona”, Plas. Phys. Cont. Fus. Res., vol. 58, 014041, 2016.
[6] A.W. Hood, P. Cargill, P.K. Browning and K.V. Tam, “An MHD avalanche in a multi-threaded coronal loop”, Astrophys. J., vol. 817, 5, 2016.
[7] A Hussain, P.K. Browning and A.W. Hood, “A relaxation model of coronal heating in multiple interacting flux ropes”, Astron. Astrophys,, vol. 600, A5, 2017.
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1035
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Our c
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AM
28
1100
-123
0CO
NCUR
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SES
SION
1
Sess
ion:
1A -
AIP
Gra
vita
tiona
l Wav
es
& Re
lativ
ity
1B -
AIP
Nuc
lear
& P
artic
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Phys
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1C -
AIP
CM
M
1D -
AIP
ATM
OP1E
- A
IP Q
UICC
1F
- A
OS/A
COFT
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mic
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neu
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met
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1100
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1200
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twor
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dete
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Higg
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expe
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LHC
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Jo
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1230
-133
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Ba
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l, Un
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lub
1245
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5AO
S An
nual
Gen
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Mee
ting
Se
min
ar R
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1, U
nive
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Clu
b
23rd Australian Institute of Physics Congress 2018 – HANDBOOK 29
1330
-150
0CO
NCUR
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SES
SION
2
Sess
ion:
2A -
AIP
Gra
vita
tiona
l Wav
es
& Re
lativ
ity
2B -
AIP
Nuc
lear
& P
artic
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Phys
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2C -
AIP
CM
M
2D -
AIP
ATM
OP
2E -
AIP
QUI
CC
2F -
AOS
/ACO
FT
2G -
AOS
/ACO
FT
2H -
COM
MAD
Topi
c:Or
gani
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d ca
rbon
bas
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mat
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lsAt
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sup
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Quan
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met
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algo
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nost
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Bui
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lub
Audi
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1330
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5Qu
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ffect
s in
gr
avita
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laps
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Ter
no
Quar
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Nuc
lei a
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Anth
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Loca
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surfa
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s fa
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quilib
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Mat
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quan
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light
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fibre
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bub
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1345
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1400
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Com
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1415
-143
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mas
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And
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Full
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opt
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Sam
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logi
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1500
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all,
Unive
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Clu
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23rd Australian Institute of Physics Congress 2018 – HANDBOOK30
1530
-173
0CO
NCUR
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SES
SION
3
Sess
ion:
3A -
AIP
Gra
vita
tiona
l Wav
es
& Re
lativ
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3B -
AIP
Nuc
lear
& P
artic
le
Phys
ics
3C -
AIP
CM
M
3D -
AIP
ATM
OP
3E -
AIP
QUI
CC
3F
- AIP
QUI
CC3G
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COFT
3H
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and
qu
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us v
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qu
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form
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mic
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devic
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pre
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mer
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requ
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B
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all,
Unive
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Clu
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23rd Australian Institute of Physics Congress 2018 – HANDBOOK 31
Tues
day
11 D
ecem
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018
– AO
S Pa
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0730
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0945
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Unive
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Clu
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1100
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SES
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4
Sess
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4A -
Foc
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essi
on
–Opt
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& Q
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Bio-
Sens
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netis
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tom
echa
nics
Chao
Men
g
A pa
ssive
on-
chip
, su
perc
ondu
ctin
g ci
rcul
ator
us
ing
a rin
g of
tunn
el
junc
tions
Tom
Sta
ce
An a
rtific
ial n
eura
l ne
twor
k fo
r abe
rratio
n co
mpe
nsat
ion
Benj
amin
Cum
min
g
Next-
gene
ratio
n sin
gle-
phot
on s
ourc
es in
two-
dim
ensio
nal h
exag
onal
boro
n ni
tride
for s
pace
app
licat
ions
Tobi
as V
ogl
1145
-120
0Ax
ion
Dete
ctio
n w
ith
Prec
isio
n Fr
eque
ncy
Met
rolo
gyM
axim
Gor
yach
ev
The
Fund
amen
tal
Shar
pnes
s of
Mag
netic
In
terfa
ces
Form
ed b
y Ch
emic
al D
isor
der U
sing
a
He+
Bea
m: T
heor
y an
d Ex
perim
ent
Grac
e Ca
user
Emer
genc
e of
rela
tivis
tic
non-
dipo
le e
ffect
s in
st
rong
fiel
d at
omic
io
niza
tion
at m
oder
ate
inte
nsiti
es
Nida
Har
am
Coup
ling
a hi
gh q
ualit
y fa
ctor
qua
rtz b
ulk
acou
stic
w
ave
reso
nato
r to
a m
icro
wav
e ca
vity
Jere
my
Bour
hill
Chip
-to-
chip
ent
angl
emen
t of
tran
smon
qub
its u
sing
en
gine
ered
mea
sure
men
t fie
lds
Nath
an L
angf
ord
Tow
ards
rapi
d OC
T im
agin
g: it
erat
ive le
arni
ng
cont
rol o
f MEM
S m
irror
s Da
niel
Firt
h
Effe
cts
of h
igh
ener
gy
elec
tron
irrad
iatio
n on
qu
antu
m e
mitt
ers
in
hexa
gona
l bor
on n
itrid
e Ng
oc M
y Ha
nh D
uong
1200
-121
5Fl
uore
scen
t nan
odia
mon
ds:
from
the
crea
tion
and
char
acte
rizat
ion
of o
ptic
al
defe
cts
to a
pplic
atio
ns in
bi
olog
y Ph
illip
Rei
neck
Sear
chin
g fo
r ultr
a-lig
ht
Dark
Mat
ter u
sing
clo
cks
at th
e Pa
ris O
bser
vato
ryPe
ter W
olf
Unde
rsta
ndin
g th
e st
ruct
ural
effe
cts
on
mag
netic
ord
er in
the
2D q
uant
um m
agne
t at
acam
ite, C
u2Cl
(OH)
3 Ki
rrily
Rul
e
Dyna
mic
s of
mol
ecul
ar
exci
tons
inte
ract
ing
with
tw
iste
d lig
ht
Hugh
Sul
livan
Fast
and
coh
eren
t m
echa
nica
l squ
eezin
g w
ith
opto
mec
hani
cs
Jam
es B
enne
tt
Dem
onst
ratio
n of
a
capa
citiv
ely
shun
ted
supe
rcon
duct
ing
gran
ular
al
umin
um
Yann
ick
Scho
n
Corre
ctio
n of
pea
k tra
ckin
g rip
ple
in s
olid
sta
te
spec
trom
eter
s
Pete
r Coo
k
Fabr
icat
ion
of N
ear-
Iden
tical
Sin
gle
Phot
on
Emitt
ers
in H
exag
onal
Bo
ron
Nitri
de fo
r Int
egra
ted
Quan
tum
Pho
toni
cs
Noah
Men
dels
on
1215
-123
0Na
nosc
ale
quan
tum
se
nsin
g Si
mon
Sch
mitt
Mag
neto
elec
tric
Coup
ling
Mec
hani
sm o
f Hex
agon
al
Mag
net C
o4Nb
2O9
with
La
rge
In-p
lane
Ani
sotr
opy
Guoc
hu D
eng
Isom
er-s
peci
fic a
ctio
n sp
ectro
scop
y of
mol
ecul
ar
ions
Ed
uard
o Ca
rras
cosa
Phon
on C
onfin
emen
t by
the
Forc
e of
Lig
ht
Xin
(Eric
) He
Nonr
ecip
roca
l dev
ice
real
ized
with
qua
ntum
no
nlin
earit
y To
m S
tace
Firs
t-or
der q
uasi
-Bes
sel
optic
al ‘f
unne
l’ be
am fo
r tra
ppin
g pa
rticl
es in
air
Seba
stia
n La
vin
Vare
la
Optic
al M
odel
ling
and
Char
acte
rizat
ion
of
MEM
S ba
sed
filte
rs fo
r sp
ectro
scop
ic im
agin
g ap
plic
atio
ns
Dhie
ndra
Trip
athi
1230
-133
0Lu
nch
Ba
nque
t Hal
l, Un
ivers
ity C
lub
1245
-131
5Di
scus
sion
– T
heor
etic
al a
nd M
athe
mat
ical
Phy
sics
in A
ustra
lia
Arts
Roo
m 1
0 [1
.62]
23rd Australian Institute of Physics Congress 2018 – HANDBOOK32
1330
-151
5CO
NCUR
RENT
SES
SION
5
Sess
ion:
5A -
AIP
Com
bine
d GW
and
Ast
rono
my
sess
ion
5B -
Foc
us S
essi
on –
Da
rk M
atte
r Det
ectio
n 5C
- A
IP C
MM
5D
- A
IP A
TMOP
5E -
AIP
QUI
CC5F
- E
duca
tion
for
Phys
ics
and
Rela
ted
Disc
iplin
es
5G -
AOS
/ACO
FT
5H -
COM
MAD
E
duca
tion
for
Phys
ics
and
Rela
ted
Disc
iplin
es A
dditi
onal
Wor
ksho
ps
Topi
c:M
ater
ials
and
Ch
arac
teris
atio
nPr
ecis
ion
mea
sure
men
tOp
tom
echa
nics
, hyb
rid
syst
ems,
qua
ntum
th
erm
odyn
amic
s
Nove
l App
roac
hes
of
Teac
hing
Phy
sics
Quan
tum
opt
ics
Quan
tum
co
mpu
ting
&
spin
en
sem
bles
Chai
r:Gr
ant M
eado
rs &
St
avel
ey-S
mith
Max
im G
orya
chev
Gunt
her A
nder
sson
An
dre
Luite
nKa
e Ne
mot
oDa
vid
Hoxl
eyM
ikke
l And
erse
nN.
J Ek
ins-
Dauk
es
Room
:Ar
ts B
uild
ing
Room
8 [1
.60]
Arts
Bui
ldin
g Ro
om 9
[1.6
1]Ph
ysic
s Bu
ildin
g Ro
ss L
ectu
re T
heat
re
[G.4
1]
Arts
Bui
ldin
g Fo
x Le
ctur
e Th
eatr
e [G
.59]
Univ
ersi
ty C
lub
Audi
toriu
mPh
ysic
s Bu
ildin
g Cl
ews
Lect
ure
Thea
tre
[2.4
3]
Arts
Bui
ldin
g Au
stin
Lec
ture
Th
eatr
e [1
.59]
Arts
Bui
ldin
g Ro
om 5
[G.6
1]Ph
ysic
s Bu
ildin
g Ro
om 2
15Ar
ts B
uild
ing
Room
6 [G
.62]
1330
-134
5Co
nstra
inin
g th
e m
orph
olog
y of
ga
mm
a-ra
y bu
rsts
with
gr
avita
tiona
l wav
es a
nd
gam
ma
rays
Er
ic T
hran
e
Sear
ch fo
r dar
k m
atte
r with
the
ATLA
S ex
perim
ent a
t the
LHC
Fr
ance
sca
Unga
ro
New
fron
tiers
in a
tom
pr
obe
tom
ogra
phy
Julie
Cai
rney
Optic
al n
etw
orks
and
cl
ock
com
paris
ons
at
the
18th
-dec
imal
pla
ce
Tara
For
tier
Topo
logi
cal t
rans
port
of
phon
ons
and
phot
ons
Flor
ian
Mar
quar
dt
Desi
gn a
nd e
valu
atio
n of
an
inno
vativ
e ap
proa
ch to
teac
hing
el
ectri
c ci
rcui
ts
Jan-
Phili
pp B
urde
Phot
onic
Qua
ntum
Ne
twor
ks
Ian
Wal
msl
ey
Com
putin
g at
the
atom
ic s
cale
with
qu
antu
m d
ots
Konr
ad W
alus
Teac
hing
Nex
us:
Evol
ving
Phy
sics
Ed
ucat
ion
in o
ur
Scho
ols
The
forc
es a
nd
how
phy
sici
sts
inte
rpre
tatio
ns h
ave
chan
ged
over
the
cent
urie
sJa
son
Dick
er
Scie
ntifi
c W
ritin
g W
orks
hop
The
Secr
ets
of
Scie
ntifi
c Pu
blis
hing
Igor
Aha
rano
vich
1330
-150
013
45-1
400
The
Smok
ing
Gun
of
Infla
tion:
sea
rchi
ng fo
r gr
avita
tiona
l wav
es w
ith
the
Sout
h Po
le Te
lesc
ope
Chris
tian
Reic
hard
t
Dire
ct d
etec
tion
of
Mirr
or D
ark
Mat
ter
Robe
rt F
oot
1400
-141
5De
tect
ing
the
grav
itatio
nal-w
ave
back
grou
nd fr
om
the
who
le p
opul
atio
n of
bin
ary
blac
k ho
le
mer
gers
Ro
ry S
mith
The
sear
ch fo
r dar
k m
atte
r with
the
SABR
E ex
perim
ent
Ibtih
al M
ahm
ood
Mac
rosc
opic
Kel
vin
Prob
e M
icro
scop
y on
Pe
rovs
kite
s Ia
in B
aiki
e
Ultra
cold
Cs*
Yb
mol
ecul
es b
y ph
otoa
s-so
ciat
ion
in a
n op
tical
di
pole
trap
Jo
hn M
cFer
ran
Quan
tum
ent
angl
emen
t of
the
mot
ion
of
mas
sive
obj
ects
M
att W
oolle
y
Usin
g co
lour
and
hi
stor
y to
eng
age
stud
ents
with
a th
erm
al
expe
rimen
t Ae
sha
Bhan
sali
Para
llel q
uant
um
rand
om n
umbe
r ge
nera
tion
from
hom
odyn
e m
easu
rem
ents
Da
niel
Pea
ce
Sing
le s
pin
qubi
ts fo
r ST
M-f
abric
ated
don
or
devic
es in
silic
on
Ludw
ik K
ranz
1415
-143
0Un
veilin
g th
e vio
lent
Un
ivers
e w
ith
grav
itatio
nal w
ave
astro
nom
y Er
ic H
owel
l
Dire
ctio
nal D
ark
Mat
ter
Dete
ctio
n w
ith C
YGNU
S Li
ndse
y Bi
gnel
l
Theo
retic
al S
tudy
of t
he
Hydr
atio
n of
the
Pola
r (0
001)
and
(000
1– ) Su
rface
s of
Wur
tzite
GaN
w
ith a
Nat
ive G
a2O3
Di
no S
pagn
oli
Evap
orat
ion
of a
gia
nt
quan
tum
vor
tex
Yauh
en S
achk
ou
Pale
olith
ic
aero
dyna
mic
s:
the
stra
ight
-flyin
g bo
omer
ang
Tim
o Ni
emin
en
Redu
ctio
n of
Qua
ntum
Ra
diat
ion
Pres
sure
No
ise
via S
quee
zed
Ligh
t in
the
Audi
o-
Freq
uenc
y Ba
nd
Min
Jet
Yap
Two-
elec
tron
spin
co
rrela
tions
and
ex
chan
ge b
etw
een
phos
phor
us d
onor
s in
si
licon
Sa
m G
orm
an
1430
-144
5A
sear
ch fo
r con
tinuo
us
grav
itatio
nal w
aves
fro
m H
.E.S
.S. s
ourc
es
Deek
sha
Beni
wal
Radi
oim
purit
y ch
arac
teris
atio
n of
hi
gh-p
urity
dar
k m
atte
r de
tect
or m
ater
ials
us
ing
Acce
lera
tor M
ass
Spec
trom
etry
An
ton
Wal
lner
Met
al C
lust
ers
on S
urfa
ces
for
Phot
ocat
alys
is
Appl
icat
ions
Gu
nthe
r And
erss
on
Gian
t Spi
n Sq
ueez
ing
for m
etro
logy
usi
ng
Geom
etric
Qua
ntum
Ga
tes
Jaso
n Tw
amle
y
Inte
rcon
vers
ion
of
finite
-size
qua
ntum
re
sour
ces
Kam
il Ko
rzek
wa
Beyo
nd F
lippe
d!
Chal
leng
ed-B
ased
le
arni
ng in
1st
yea
r Ph
ysic
s an
d Ch
emis
try
Jam
ie Q
uint
on
Inte
grat
ed d
evic
e fo
r Co
ntin
uous
Var
iabl
e qu
antu
m o
ptic
s M
irko
Lobi
no
Mic
rose
cond
spi
n qu
bit r
eado
ut w
ith a
st
rong
-res
pons
e si
ngle
el
ectro
n tra
nsis
tor
Dani
el K
eith
1445
-150
0In
ferri
ng p
opul
atio
n pr
oper
ties
of b
inar
y ne
utro
n st
ars
with
gr
avita
tiona
l wav
es
jiang
Zhu
Broa
dban
d De
tect
ion
of A
xion
Win
d us
ing
Mag
nons
Gr
aem
e Fl
ower
Plas
mon
-Cou
plin
g Th
eory
of t
he E
lect
ron
Inel
astic
Mea
n Fr
ee P
ath,
en
ergy
loss
func
tiona
l an
d th
e di
elec
tric
func
tion
for L
EEM
, for
lo
w e
nerg
y el
ectro
ns
Chris
toph
er C
hant
ler
Com
pact
Tw
o-Ph
oton
Ru
bidi
um C
lock
Ch
ris P
erre
lla
Auto
nom
ous
Quan
tum
He
at E
ngin
e Us
ing
an
Elec
tron
Shut
tle
Behn
am T
onek
abon
i
Even
bet
ter t
han
the
real
thin
g? I
mpr
ovin
g re
mot
e ac
cess
un
derg
radu
ate
expe
rimen
ts
Man
uel P
umar
ole
Surv
ival r
eson
ance
s in
a
diss
ipat
ively
drive
n at
om o
ptic
s sy
stem
an
d th
eir a
pplic
atio
n to
gr
avity
mea
sure
men
ts
Mik
kel F
And
erse
n
Isot
opic
ally
Pure
Si
lcon
-28
Whi
sper
ing
Galle
ry M
ode
Reso
nato
rs: A
Hos
t for
Na
rrow
Lin
ewid
th S
pin
Ense
mbl
es
Mic
hael
Tob
ar
1500
-151
5De
fect
eng
inee
ring
in
grap
hene
usi
ng io
n irr
adia
tion
Ro
bert
Elli
man
Enha
ncin
g le
arni
ng o
f ph
ysic
s co
ncep
ts u
sing
in
tera
ctive
sim
ulat
ions
M
arga
ret W
egen
er
1500
-153
0Af
tern
oon
Tea
Banq
uet H
all,
Unive
rsity
Clu
b
23rd Australian Institute of Physics Congress 2018 – HANDBOOK 33
1530
-174
5CO
NCUR
RENT
SES
SION
6
Sess
ion:
6A -
AIP
Gra
vita
tiona
l W
aves
& R
elat
ivity
6B
- A
IP N
ucle
ar &
Pa
rtic
le P
hysi
cs
6C -
AIP
Pla
sma
Phys
ics
6D -
AIP
ATM
OP
6E- A
IP Q
UICC
6F
- F
ocus
Ses
sion
–O
ptic
al &
Qua
ntum
Bi
o-Se
nsin
g
6G -
AOS
/ACO
FT
6H -
COM
MAD
AI
P Ed
ucat
ion
for P
hysi
cs
& Re
late
d Di
scip
lines
:
Topi
c:Ex
otic
col
d-at
om s
yste
ms
Quan
tum
foun
datio
ns a
nd
quan
tum
alg
orith
ms
Ligh
t sou
rces
Nano
wire
s an
d na
no-
stru
ctur
es
Chai
r:Ju
Li
Kevi
n Va
rvel
lM
atth
ew H
ole
Sean
Hod
gman
Halin
e Ru
bins
ztei
n-Du
nlop
Liam
Hal
lIg
or A
haro
nvic
hKo
nrad
Wal
us
Room
:Ar
ts B
uild
ing
Room
8 [1
.60]
Arts
Bui
ldin
g Ro
om 9
[1.6
1]Ar
ts B
uild
ing
Room
5 [G
.61]
Arts
Bui
ldin
g Fo
x Le
ctur
e Th
eatr
e [G
.59]
Phys
ics
Build
ing
Ross
Lec
ture
The
atre
[G
.41]
Univ
ersi
ty C
lub
Audi
toriu
mAr
ts B
uild
ing
Aust
in L
ectu
re T
heat
re
[1.5
9]
Phys
ics
Build
ing
Clew
s Le
ctur
e Th
eatr
e [2
.43]
Univ
ersi
ty C
lub
Club
Res
taur
ant
1530
-160
0Qu
antu
m o
ptom
echa
nics
in
gra
vity
(qua
ntum
) ex
perim
ents
M
arku
s As
pelm
eyer
Rece
nt re
sults
from
the
ATLA
S Ex
perim
ent a
t Run
2
of th
e CE
RN L
HC
Paul
Jac
kson
On th
e fu
ndam
enta
l of
Rayle
igh-
Taylo
r ins
tabi
lity
and
inte
rfaci
al R
ayle
igh-
Taylo
r mixi
ngz
Snez
harn
a I.
Abar
zhi
Cohe
rent
mic
row
ave-
to-o
ptic
al c
onve
rsio
n via
six-
wav
e m
ixing
in
Rydb
erg
atom
s W
enhu
i Li
Mes
osop
ic s
teer
able
and
su
perp
ositi
on s
tate
s of
m
assi
ve s
yste
ms
M
arga
ret R
eid
The
blin
king
mec
hani
sms
in c
ollo
idal
qua
ntum
dot
s Ga
ngch
eng
Yuan
Emis
sion
from
GeV
, GaN
an
d 2D
het
eros
truct
ures
fo
r lig
ht-m
atte
r int
erac
tion
Wei
bo G
ao
Engi
neer
ing
opto
elec
troni
c de
vices
bas
ed o
n III–
V na
now
ires:
Fro
m g
row
th to
te
rahe
rtz
Hann
ah J
oyce
PEG
High
Tea
3.30
pm-4
.30p
mKe
ynot
e: C
hand
rela
kha
Sing
hCl
ub R
esta
uran
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inve
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ub16
00-1
615
BILB
Y: A
Use
r-Fr
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ly Pa
ckag
e fo
r Par
amet
er
Estim
atio
n in
Gra
vitio
nal
Wav
e As
trono
my
Mor
itz H
uebn
er
Prob
ing
astro
phys
ical
s-
proc
ess
and
r-pr
oces
s in
th
e la
bora
tory
M
icha
el P
aul
Amm
onia
pro
duct
ion
in
atm
osph
eric
-pre
ssur
e pl
asm
as: p
rogr
ess
and
pros
pect
sz
Tony
Mur
phy
Rapi
d Pr
oduc
tion
of L
arge
Qu
anta
BEC
Sup
ercu
rrent
sTh
omas
Bel
l
Unify
ing
nonl
ocal
ity a
nd
cont
extu
ality
as
viola
tions
of
cla
ssic
al c
ausa
lity
Eric
Cav
alca
nti
Quan
tum
tech
niqu
es fo
r op
tical
bio
sens
ing
War
wic
k Bo
wen
Pure
-qua
rtic
solu
tions
un
der t
he p
ertu
rbat
ive
effe
cts
of q
uadr
atic
di
sper
sion
Ke
vin
Tam
Stre
ss In
duce
d Be
ndin
g of
Ga
As N
anow
ires
by M
etal
De
posi
tion
Fo
uad
Karo
uta
1615
-163
0A
nove
l vib
ratio
n is
olat
ion
tech
niqu
e fo
r fut
ure
grav
itatio
nal w
ave
dete
ctor
s Jo
ris v
an H
eijn
inge
n
Dres
sing
ultr
a-co
ld a
tom
s fo
r con
trol a
nd q
uant
um
tech
nolo
gyBa
rry
Garr
away
Bell'
s in
equa
litie
s an
d EP
R st
eerin
g w
ith m
etas
tabl
e he
lium
BEC
s Se
an H
odgm
an
A su
perfl
uid
Brillo
uin
lase
r w
ith u
ltra-
high
gai
n Ch
risto
pher
Bak
er
Mul
ti-w
avel
engt
hs
Lum
ines
cenc
e fro
m S
ingl
e In
GaAs
/InP
Quan
tum
Wel
l Na
now
ire L
ight
Em
ittin
g Di
ode
Inse
ok Y
ang
1630
-164
5Po
ssib
le p
hysi
cal
sign
atur
e of
the
quan
tum
na
ture
of t
ime
Joan
Vac
caro
Quan
tifyin
g di
ssip
atio
n in
nuc
lear
reac
tions
en
rout
e to
equ
ilibra
tion:
ex
perim
enta
l M
ahan
anda
Das
gupt
a
Com
plet
ing
the
pict
ure
of
linea
r ene
rget
ic g
eode
sic
acou
stic
mod
e Zh
ison
g Qu
Unive
rsal
ity o
f an
Impu
rity
in a
Bos
e-Ei
nste
in
Cond
ensa
te
Jesp
er L
evin
sen
Quan
tum
opt
ical
si
mul
atio
n of
cla
ssic
al
stoc
hast
ic p
roce
sses
ove
r m
ultip
le ti
me
step
sZ
Nora
Tis
chle
r
Tuni
ng o
f Lon
g-Ra
nge
Hype
rfine
Inte
ract
ions
fo
r Max
imal
ly Ef
ficie
nt
Dyna
mic
Nuc
lear
Po
laris
atio
n Li
am H
all
Hete
rody
ne fi
bre
inte
rfero
met
er fo
r fre
quen
cy-n
oise
redu
ctio
n an
d ra
pid
wid
e-ba
nd
tuna
bilit
y of
a c
onve
ntio
nal
lase
r sou
rce
Phili
p Li
ght
Shap
e en
gine
erin
g of
InP
nano
stru
ctur
es g
row
n by
se
lect
ive a
rea
epita
xy
Naiy
in W
ang
Phys
ics
Build
ing,
215
Le
ctur
e Ro
om
Chai
r: M
aria
Par
apilly
Teac
hing
tips
- in
vite
d pa
nel
Mod
erat
or: J
asm
ina
Laze
ndic
-Gal
low
ay
Pane
l: M
anju
Sha
rma,
Jo
e Ho
pe, J
amie
Qui
nton
, El
izabe
th A
ngst
man
n16
30-1
730
1645
-170
0M
ulti-
stag
e Da
mpe
r fo
r Par
amet
ric
Inst
abilit
y Su
ppre
ssio
n in
Gra
vitat
iona
l Wav
e De
tect
ors
Ham
edan
Jab
eria
n
Expl
orin
g fu
ndam
enta
l ph
ysic
s w
ith g
ravit
atio
nal
wav
es
Arch
il Ko
bakh
idze
Supe
rflui
d dy
nam
ics
of
two-
com
pone
nt B
EC in
a
toro
idal
trap
M
ark
Bake
r
Dira
c qu
antu
m w
alks
on
trian
gula
r and
hon
eyco
mb
latti
ces
Gare
th J
ay
Dete
rmin
ing
the
quan
tum
co
here
nce
of o
ptic
ally
trapp
ed n
anod
iam
onds
Pete
r Ree
ce
Auto
mat
ical
ly op
timis
ing
cavit
y tra
nsm
issi
on u
sing
2
SLM
s an
d di
gita
lly
enha
nced
Ta
rqui
n Ra
lph
Effe
ct o
f tem
pera
ture
he
atin
g ra
te a
nd
grow
th p
ress
ure
on th
e m
orph
olog
y of
CVD
-gro
wn
two-
dim
ensi
onal
Bi2
Te3
nano
stru
ctur
es
Junl
iang
Li
1700
-171
5Hi
gh re
flect
ivity
silic
on
nitri
de p
hoto
nic
crys
tals
Benj
amin
Nei
l
Anal
ysis
of t
he fi
rst B
elle
II
collis
ion
data
Jo
-Fre
derik
Kro
hn
High
ly sy
mm
etric
inte
rfaci
al
cohe
rent
stru
ctur
es in
Ra
yleig
h Ta
ylor i
nsta
bilit
y w
ith ti
me-
depe
nden
t ac
cele
ratio
n De
smon
d Hi
ll
Dyna
mic
s of
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harm
onic
ally
trapp
ed
Tonk
s-Gi
rard
eau
gas
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r per
iodi
c dr
iving
Ka
ren
Kher
unts
yan
Blac
k-bo
x qu
antu
m
stat
e pr
epar
atio
n w
ithou
t ar
ithm
etic
Yu
val S
ande
rs
Wav
elen
gth
swep
t op
erat
ion
of a
n ac
oust
o-op
tical
ly tu
ned
sem
icon
duct
or la
ser c
avity
Ad
am G
ambe
ll
Usin
g ul
tra-t
hin
pary
lene
fil
ms
as a
n or
gani
c ga
te
insu
lato
r in
nano
wire
fie
ld-e
ffect
Ja
n Gl
usch
ke
1715
-173
0Qu
antu
m fo
rmul
atio
n of
th
e Ei
nste
in E
quiva
lenc
e Pr
inci
ple
Mag
dale
na Z
ych
The
evol
utio
n of
sha
pe
coex
iste
nce
betw
een
doub
ly m
agic
40C
a an
d 56
Ni th
roug
h pa
ir-co
nver
sion
spe
ctro
scop
y Ja
ckso
n Do
wie
Max
imum
initi
al g
row
th-
rate
of s
trong
-sho
ck-
drive
n Ri
chtm
yer-
Mes
hkov
in
stab
ility
Arun
Pan
dian
Rout
e to
Obs
ervin
g Fu
lde-
Ferre
ll Su
perfl
uids
via
a D
ark-
Stat
e Co
ntro
l of
Fesh
bach
Res
onan
ces
Xia-
Ji L
iu
Assi
sted
Mac
rosc
opic
Qu
antu
mne
ss
Aust
in L
und
Quan
tum
mag
netic
m
icro
scop
y of
bi
omin
eral
isat
ion
in a
m
arin
e m
ollu
scJu
lia M
cCoe
y
Prob
ing
char
ge a
nd
ener
gy tr
ansf
er a
cros
s th
e HI
OS in
terfa
ce b
y el
ectro
n tra
nspo
rt in
silic
on
nano
wire
s M
ykha
ilo K
lym
enko
23rd Australian Institute of Physics Congress 2018 – HANDBOOK34
1530
-174
5CO
NCUR
RENT
SES
SION
6
Sess
ion:
6A -
AIP
Gra
vita
tiona
l W
aves
& R
elat
ivity
6B
- A
IP N
ucle
ar &
Pa
rtic
le P
hysi
cs
6C -
AIP
Pla
sma
Phys
ics
6D -
AIP
ATM
OP
6E- A
IP Q
UICC
6F
- F
ocus
Ses
sion
–O
ptic
al &
Qua
ntum
Bi
o-Se
nsin
g
6G -
AOS
/ACO
FT
6H -
COM
MAD
AI
P Ed
ucat
ion
for P
hysi
cs
& Re
late
d Di
scip
lines
:
Topi
c:Ex
otic
col
d-at
om s
yste
ms
Quan
tum
foun
datio
ns a
nd
quan
tum
alg
orith
ms
Ligh
t sou
rces
Nano
wire
s an
d na
no-
stru
ctur
es
Chai
r:Ju
Li
Kevi
n Va
rvel
lM
atth
ew H
ole
Sean
Hod
gman
Halin
e Ru
bins
ztei
n-Du
nlop
Liam
Hal
lIg
or A
haro
nvic
hKo
nrad
Wal
us
Room
:Ar
ts B
uild
ing
Room
8 [1
.60]
Arts
Bui
ldin
g Ro
om 9
[1.6
1]Ar
ts B
uild
ing
Room
5 [G
.61]
Arts
Bui
ldin
g Fo
x Le
ctur
e Th
eatr
e [G
.59]
Phys
ics
Build
ing
Ross
Lec
ture
The
atre
[G
.41]
Univ
ersi
ty C
lub
Audi
toriu
mAr
ts B
uild
ing
Aust
in L
ectu
re T
heat
re
[1.5
9]
Phys
ics
Build
ing
Clew
s Le
ctur
e Th
eatr
e [2
.43]
Univ
ersi
ty C
lub
Club
Res
taur
ant
1530
-160
0Qu
antu
m o
ptom
echa
nics
in
gra
vity
(qua
ntum
) ex
perim
ents
M
arku
s As
pelm
eyer
Rece
nt re
sults
from
the
ATLA
S Ex
perim
ent a
t Run
2
of th
e CE
RN L
HC
Paul
Jac
kson
On th
e fu
ndam
enta
l of
Rayle
igh-
Taylo
r ins
tabi
lity
and
inte
rfaci
al R
ayle
igh-
Taylo
r mixi
ngz
Snez
harn
a I.
Abar
zhi
Cohe
rent
mic
row
ave-
to-o
ptic
al c
onve
rsio
n via
six-
wav
e m
ixing
in
Rydb
erg
atom
s W
enhu
i Li
Mes
osop
ic s
teer
able
and
su
perp
ositi
on s
tate
s of
m
assi
ve s
yste
ms
M
arga
ret R
eid
The
blin
king
mec
hani
sms
in c
ollo
idal
qua
ntum
dot
s Ga
ngch
eng
Yuan
Emis
sion
from
GeV
, GaN
an
d 2D
het
eros
truct
ures
fo
r lig
ht-m
atte
r int
erac
tion
Wei
bo G
ao
Engi
neer
ing
opto
elec
troni
c de
vices
bas
ed o
n III–
V na
now
ires:
Fro
m g
row
th to
te
rahe
rtz
Hann
ah J
oyce
PEG
High
Tea
3.30
pm-4
.30p
mKe
ynot
e: C
hand
rela
kha
Sing
hCl
ub R
esta
uran
t, Un
inve
rsity
Cl
ub16
00-1
615
BILB
Y: A
Use
r-Fr
iend
ly Pa
ckag
e fo
r Par
amet
er
Estim
atio
n in
Gra
vitio
nal
Wav
e As
trono
my
Mor
itz H
uebn
er
Prob
ing
astro
phys
ical
s-
proc
ess
and
r-pr
oces
s in
th
e la
bora
tory
M
icha
el P
aul
Amm
onia
pro
duct
ion
in
atm
osph
eric
-pre
ssur
e pl
asm
as: p
rogr
ess
and
pros
pect
sz
Tony
Mur
phy
Rapi
d Pr
oduc
tion
of L
arge
Qu
anta
BEC
Sup
ercu
rrent
sTh
omas
Bel
l
Unify
ing
nonl
ocal
ity a
nd
cont
extu
ality
as
viola
tions
of
cla
ssic
al c
ausa
lity
Eric
Cav
alca
nti
Quan
tum
tech
niqu
es fo
r op
tical
bio
sens
ing
War
wic
k Bo
wen
Pure
-qua
rtic
solu
tions
un
der t
he p
ertu
rbat
ive
effe
cts
of q
uadr
atic
di
sper
sion
Ke
vin
Tam
Stre
ss In
duce
d Be
ndin
g of
Ga
As N
anow
ires
by M
etal
De
posi
tion
Fo
uad
Karo
uta
1615
-163
0A
nove
l vib
ratio
n is
olat
ion
tech
niqu
e fo
r fut
ure
grav
itatio
nal w
ave
dete
ctor
s Jo
ris v
an H
eijn
inge
n
Dres
sing
ultr
a-co
ld a
tom
s fo
r con
trol a
nd q
uant
um
tech
nolo
gyBa
rry
Garr
away
Bell'
s in
equa
litie
s an
d EP
R st
eerin
g w
ith m
etas
tabl
e he
lium
BEC
s Se
an H
odgm
an
A su
perfl
uid
Brillo
uin
lase
r w
ith u
ltra-
high
gai
n Ch
risto
pher
Bak
er
Mul
ti-w
avel
engt
hs
Lum
ines
cenc
e fro
m S
ingl
e In
GaAs
/InP
Quan
tum
Wel
l Na
now
ire L
ight
Em
ittin
g Di
ode
Inse
ok Y
ang
1630
-164
5Po
ssib
le p
hysi
cal
sign
atur
e of
the
quan
tum
na
ture
of t
ime
Joan
Vac
caro
Quan
tifyin
g di
ssip
atio
n in
nuc
lear
reac
tions
en
rout
e to
equ
ilibra
tion:
ex
perim
enta
l M
ahan
anda
Das
gupt
a
Com
plet
ing
the
pict
ure
of
linea
r ene
rget
ic g
eode
sic
acou
stic
mod
e Zh
ison
g Qu
Unive
rsal
ity o
f an
Impu
rity
in a
Bos
e-Ei
nste
in
Cond
ensa
te
Jesp
er L
evin
sen
Quan
tum
opt
ical
si
mul
atio
n of
cla
ssic
al
stoc
hast
ic p
roce
sses
ove
r m
ultip
le ti
me
step
sZ
Nora
Tis
chle
r
Tuni
ng o
f Lon
g-Ra
nge
Hype
rfine
Inte
ract
ions
fo
r Max
imal
ly Ef
ficie
nt
Dyna
mic
Nuc
lear
Po
laris
atio
n Li
am H
all
Hete
rody
ne fi
bre
inte
rfero
met
er fo
r fre
quen
cy-n
oise
redu
ctio
n an
d ra
pid
wid
e-ba
nd
tuna
bilit
y of
a c
onve
ntio
nal
lase
r sou
rce
Phili
p Li
ght
Shap
e en
gine
erin
g of
InP
nano
stru
ctur
es g
row
n by
se
lect
ive a
rea
epita
xy
Naiy
in W
ang
Phys
ics
Build
ing,
215
Le
ctur
e Ro
om
Chai
r: M
aria
Par
apilly
Teac
hing
tips
- in
vite
d pa
nel
Mod
erat
or: J
asm
ina
Laze
ndic
-Gal
low
ay
Pane
l: M
anju
Sha
rma,
Jo
e Ho
pe, J
amie
Qui
nton
, El
izabe
th A
ngst
man
n16
30-1
730
1645
-170
0M
ulti-
stag
e Da
mpe
r fo
r Par
amet
ric
Inst
abilit
y Su
ppre
ssio
n in
Gra
vitat
iona
l Wav
e De
tect
ors
Ham
edan
Jab
eria
n
Expl
orin
g fu
ndam
enta
l ph
ysic
s w
ith g
ravit
atio
nal
wav
es
Arch
il Ko
bakh
idze
Supe
rflui
d dy
nam
ics
of
two-
com
pone
nt B
EC in
a
toro
idal
trap
M
ark
Bake
r
Dira
c qu
antu
m w
alks
on
trian
gula
r and
hon
eyco
mb
latti
ces
Gare
th J
ay
Dete
rmin
ing
the
quan
tum
co
here
nce
of o
ptic
ally
trapp
ed n
anod
iam
onds
Pete
r Ree
ce
Auto
mat
ical
ly op
timis
ing
cavit
y tra
nsm
issi
on u
sing
2
SLM
s an
d di
gita
lly
enha
nced
Ta
rqui
n Ra
lph
Effe
ct o
f tem
pera
ture
he
atin
g ra
te a
nd
grow
th p
ress
ure
on th
e m
orph
olog
y of
CVD
-gro
wn
two-
dim
ensi
onal
Bi2
Te3
nano
stru
ctur
es
Junl
iang
Li
1700
-171
5Hi
gh re
flect
ivity
silic
on
nitri
de p
hoto
nic
crys
tals
Benj
amin
Nei
l
Anal
ysis
of t
he fi
rst B
elle
II
collis
ion
data
Jo
-Fre
derik
Kro
hn
High
ly sy
mm
etric
inte
rfaci
al
cohe
rent
stru
ctur
es in
Ra
yleig
h Ta
ylor i
nsta
bilit
y w
ith ti
me-
depe
nden
t ac
cele
ratio
n De
smon
d Hi
ll
Dyna
mic
s of
a
harm
onic
ally
trapp
ed
Tonk
s-Gi
rard
eau
gas
unde
r per
iodi
c dr
iving
Ka
ren
Kher
unts
yan
Blac
k-bo
x qu
antu
m
stat
e pr
epar
atio
n w
ithou
t ar
ithm
etic
Yu
val S
ande
rs
Wav
elen
gth
swep
t op
erat
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of a
n ac
oust
o-op
tical
ly tu
ned
sem
icon
duct
or la
ser c
avity
Ad
am G
ambe
ll
Usin
g ul
tra-t
hin
pary
lene
fil
ms
as a
n or
gani
c ga
te
insu
lato
r in
nano
wire
fie
ld-e
ffect
Ja
n Gl
usch
ke
1715
-173
0Qu
antu
m fo
rmul
atio
n of
th
e Ei
nste
in E
quiva
lenc
e Pr
inci
ple
Mag
dale
na Z
ych
The
evol
utio
n of
sha
pe
coex
iste
nce
betw
een
doub
ly m
agic
40C
a an
d 56
Ni th
roug
h pa
ir-co
nver
sion
spe
ctro
scop
y Ja
ckso
n Do
wie
Max
imum
initi
al g
row
th-
rate
of s
trong
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drive
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chtm
yer-
Mes
hkov
in
stab
ility
Arun
Pan
dian
Rout
e to
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ervin
g Fu
lde-
Ferre
ll Su
perfl
uids
via
a D
ark-
Stat
e Co
ntro
l of
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bach
Res
onan
ces
Xia-
Ji L
iu
Assi
sted
Mac
rosc
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Qu
antu
mne
ss
Aust
in L
und
Quan
tum
mag
netic
m
icro
scop
y of
bi
omin
eral
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m
arin
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ollu
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rt in
silic
on
nano
wire
s M
ykha
ilo K
lym
enko
1730
-174
5La
ser t
hres
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troge
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ce
ntre
s in
dia
mon
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gers
1745
-182
518
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1845
-194
5
Publ
ic L
ectu
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t reg
iste
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Inst
itute
of A
dvan
ced
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ies
to a
ttend
this
eve
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clud
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AIP
regi
stra
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Octa
gon
Thea
treM
arku
s As
pelm
eyer
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hat i
s a
phot
on?
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rval
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esso
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ner W
eiss
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ravit
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aves
Wed
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cem
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018
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dust
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ay
0730
-180
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gist
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oyer
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lub
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ENAR
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SSIO
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ctag
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ildin
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netic
Lab
, Roo
m 1
19
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-090
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00-0
945
094
5-10
35
Prof
esso
r Dam
e Ju
lia H
iggi
ns (I
OP P
resi
dent
)Pr
of T
hom
as K
raus
s (U
nive
rsity
of Y
ork,
UK)
– P
hoto
nic
Crys
tals
and
Nan
ostru
ctur
es –
Pho
enix
of P
hoto
nics
?Ch
air:
Alm
anta
s Pi
vrik
asPr
of P
hilip
pa B
row
ning
(Uni
vers
ity o
f Man
ches
ter,
UK) –
Sel
f org
anis
atio
n by
mag
netic
reco
nnec
tion
in s
olar
and
fusi
on p
lasm
as
Intro
duce
d by
And
rew
Pee
le (A
NSTO
)Co
-Cha
ir: R
icha
rd G
arre
tt an
d An
drew
Pee
le
Teac
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Nex
us: E
volv
-in
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ysic
s Ed
ucat
ion
in
Our S
choo
ls:
Elec
trici
ty
and
mag
netis
m fo
r yea
rs
11 a
nd 1
2. T
heor
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d de
mon
stra
tions
.Pr
esen
ter:
M
r Jas
on D
icke
r09
00-1
030
1035
-110
0M
orni
ng T
ea
Banq
uet H
all,
Unive
rsity
Clu
b
1100
-123
0CO
NCUR
RENT
SES
SION
7
Sess
ion:
7A -
AIP
Ast
ron
and
Astr
o +
Foc
us N
ext-
gen
Astr
o w
ith n
ew o
bser
vato
ries
7B -
AIP
Bio
phys
ics
& So
ft M
atte
r Phy
sics
7C
- A
IP G
eoph
ysic
s,
Sola
r, Te
rres
tria
l & S
pace
Ph
ysic
s
7D -
AIP
Indu
stria
l &
Appl
ied
Phys
ics
7E -
AIP
QUI
CC
7F -
Edu
catio
n fo
r Ph
ysic
s an
d Re
late
d Di
scip
lines
7G -
AOS
/ACO
FT7H
- C
OMM
ADEd
ucat
ion
for P
hysi
cs
& Re
late
d Di
scip
lines
-
Addi
tiona
l
Topi
c:Qu
antu
m in
form
aton
pr
oces
sing
Crea
ting
Effe
ctive
Le
arni
ng E
nviro
nmen
ts
and
Asse
ssm
ents
Biop
hoto
nics
and
imag
ing
Infra
red
de
tect
ors
an
d II-
VI
sem
icon
duct
ors
Chai
r:St
uart
Wyi
the
Henn
ing
Stum
fBr
ett C
arte
rSt
uart
Mid
gley
Nath
an L
angf
ord
Mar
ia P
arap
pilly
Bren
dan
Kenn
edy
Lore
nzo
Fara
one
Room
:Ph
ysic
s Bu
ildin
g Ro
ss L
ectu
re T
heat
re
[G.4
1]
Arts
Bui
ldin
g Ro
om 8
[1.6
0]Ar
ts B
uild
ing
Room
5 [G
.61]
Arts
Bui
ldin
g Ro
om 9
[1.6
1]Ar
ts B
uild
ing
Fox
Lect
ure
Thea
tre
[G.5
9]
Phys
ics
Build
ing
Clew
s Le
ctur
e Th
eatr
e [2
.43]
Arts
Bui
ldin
g Au
stin
Lec
ture
The
atre
[1
.59]
Univ
ersi
ty C
lub
Audi
toriu
m
1100
-111
5Co
smol
ogy
with
the
Dark
En
ergy
Sur
vey
Tam
ara
Davi
s
Map
ping
DNA
targ
et
sear
ch in
the
nucl
eus
of a
liv
ing
cell
Eliz
abet
h Hi
nde
Usin
g ph
ysic
s-ba
sed
iono
sphe
ric m
odel
ling
to u
nder
stan
d th
e da
ily
varia
bilit
y in
the
equa
toria
l io
nosp
here
Br
ett C
arte
r
Med
ical
Phy
sics
: the
sc
ienc
e th
at s
aves
live
s Na
talk
a Su
chow
ska
Silic
on p
hoto
nic
quan
tum
co
mpu
ting
Jere
my
O'Br
ien
Faci
litat
ing
thin
king
and
le
arni
ng in
and
bey
ond
the
clas
sroo
m u
sing
evid
ence
-ba
sed
appr
oach
es
Chan
dral
ekha
Sin
gh
Endo
scop
ic o
ptic
al
cohe
renc
e to
mog
raph
y fo
r th
e de
tect
ion,
dia
gnos
is
and
mon
itorin
g of
pu
lmon
ary
dise
ase
Mel
issa
Sut
er
Rece
nt a
dvan
ces
in II
I-V
sem
icon
duct
or in
frare
d de
tect
ors
Davi
d Ti
ng
1115
-113
0Sa
tellit
e an
d de
bris
ch
arac
teris
atio
n w
ith
Adap
tive
Optic
s Im
agin
g M
icha
el C
opel
and
23rd Australian Institute of Physics Congress 2018 – HANDBOOK 35
Sess
ion:
7A -
AIP
Ast
ron
and
Astr
o +
Foc
us N
ext-
gen
Astr
o w
ith n
ew o
bser
vato
ries
7B -
AIP
Bio
phys
ics
& So
ft M
atte
r Phy
sics
7C
- A
IP G
eoph
ysic
s,
Sola
r, Te
rres
tria
l & S
pace
Ph
ysic
s
7D -
AIP
Indu
stria
l &
Appl
ied
Phys
ics
7E -
AIP
QUI
CC
7F -
Edu
catio
n fo
r Ph
ysic
s an
d Re
late
d Di
scip
lines
7G -
AOS
/ACO
FT7H
- C
OMM
ADEd
ucat
ion
for P
hysi
cs
& Re
late
d Di
scip
lines
-
Addi
tiona
l
1130
-114
5Te
V Ga
mm
a-Ra
y As
trono
my
with
The
Ch
eren
kov
Tele
scop
e Ar
ray
(CTA
) Ga
vin
Row
ell
Anal
ysin
g E.
coli
beha
viour
in
vis
cous
med
ium
usi
ng
optic
al tw
eeze
rs
Decl
an A
rmst
rong
Free
-spa
ce q
uant
um
com
mun
icat
ion
with
ad
aptiv
e op
tics
Fran
cis
Benn
et
Plas
mon
ic c
olou
r sen
sors
fo
r dig
ital c
amer
a pi
xels
Ev
geni
y Pa
nche
nko
Tow
ards
hig
h-fid
elity
two-
qubi
t CNO
T ga
tes
base
d on
pho
spho
rous
don
or
qubi
ts in
silic
on
Muh
amm
ad U
sman
Usin
g on
line
test
ing
effe
ctive
ly in
a la
rge
first
ye
ar p
hysi
cs c
ours
e El
izab
eth
Angs
tman
n
Sim
ulta
neou
s im
agin
g an
d te
mpe
ratu
re s
ensin
g w
ithin
bra
in ti
ssue
by
a m
inia
turis
ed m
ultim
odal
fib
re-o
ptic
pro
be
Jiaw
en L
i
Rece
nt a
dvan
ces
in IR
im
agin
g fo
cal p
lane
arra
ys
tech
nolo
gy a
t UW
A
Jare
k An
tosz
ewsk
i
Phys
ics
Build
ing,
Old
Sp
ice
Com
pute
r Lab
(B48
)
Teac
hing
Nex
us:
Evol
ving
Phy
sics
Ed
ucat
ion
in O
ur
Scho
ols
Pres
ente
r: Dr
Dav
id
Hoxle
y (L
a Tr
obe
Unive
rsity
)
1145
-120
0A
new
dyn
amic
opt
ical
tw
eeze
rs to
olbo
x Is
aac
Lent
on
Geod
etic
VLB
I, Ea
rth
Rota
tion
and
Sagn
ac
effe
ct
Oleg
Tito
v
Antir
eflec
tion
coat
ing
of b
arrie
rs to
enh
ance
el
ectro
n tu
nnel
ling:
ex
plor
ing
the
mat
ter w
ave
anal
ogy
of s
uper
lum
inal
op
tical
pha
se v
eloc
ity
Ziju
n Zh
ao
Usin
g re
al C
liffo
rd g
ates
to
dem
onst
rate
faul
t to
lera
nce
in th
e IB
M Q
Ex
perie
nce
Robi
n Ha
rper
Gend
er D
iffer
ence
s in
Ap
proa
ch to
a C
ompe
titive
Ex
amin
atio
n Um
aira
Mal
ik
Tow
ards
a s
mar
t sur
gica
l gl
ove
for t
he in
traop
erat
ive
dete
ctio
n of
bre
ast c
ance
r Ro
wan
San
ders
on
Neut
ron
trans
mut
atio
n do
ping
of i
soto
pe e
nric
hed
ZnO
nano
rods
to p
rodu
ce
p-ty
pe m
ater
ial
Char
lie Ir
onsi
de
1200
-121
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ts fr
om s
tella
r-m
ass
blac
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and
neut
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star
s Ja
mes
Mill
er-J
ones
Quan
tifyin
g th
e re
spon
se
of A
rabi
dops
is th
alia
na to
ap
plie
d pr
essu
re u
sing
na
noin
dent
atio
n Jo
die
Brad
by
Seco
ndar
y Ob
serv
atio
ns
Rele
vant
to th
e Pi
onee
r An
omal
y Cr
aig
Wat
kins
Rece
nt p
rogr
ess
in
tera
hertz
spe
ctro
scop
y an
d its
app
licat
ions
Kr
unal
Rad
hanp
ura
Stat
istic
al m
echa
nica
l m
odel
s fo
r cor
rela
ted
nois
e in
arb
itrar
y st
abilis
er
code
s
Chris
Chu
bb
Self-
asse
ssm
ent f
or
lear
ning
: set
ting
an
asse
ssm
ent t
o en
cour
age
regu
latio
n in
lear
ning
Ja
smin
a La
zend
ic-
Gallo
way
Mec
hani
cal a
nd
spec
trosc
opic
diff
eren
ces
in p
rost
ate
canc
er c
ell
lines
Da
vid
McG
loin
Com
paris
on o
f ban
d en
gine
erin
g m
etho
ds in
Hg
CdTe
nBn
det
ecto
r Ni
ma
Dehd
asht
i
1215
-123
0M
id-In
frare
d Pr
oper
ties
of
com
pact
Act
ive G
alac
tic
Nucl
ei s
elec
ted
from
the
high
-rad
io-fr
eque
ncy
Aust
ralia
Tele
scop
e 20
GHz
(A
T20G
) Sur
vey
Raja
n Ch
hetr
i
Man
ipul
atin
g ze
brafi
sh
inne
r ear
with
Opt
ical
tw
eeze
rs to
tric
k th
e br
ain
Itia
Favr
e-bu
lle
Link
acq
uisi
tion
and
beam
st
eerin
g w
ith a
7-e
mitt
er
1550
nm o
ptic
al p
hase
d ar
ray
Jam
es S
polla
rd
Bloc
kage
risk
in
subs
ea o
il and
gas
pi
pelin
es: a
pplic
atio
n of
cla
ssica
l nuc
leat
ion
theo
ry to
exp
erim
enta
l m
easu
rem
ents
of n
atur
al
gas
hydr
ate
form
atio
n
Pete
r Met
axas
Cald
erba
nk-S
tean
e-Sh
or
Holo
grap
hic
Quan
tum
Er
ror C
orre
ctin
g Co
des
Rob
Harr
is
Refle
ctio
n in
phy
sics
m
ultim
edia
: A c
ompa
rison
of
a g
ener
al a
udie
nce
to
first
yea
r phy
sics
Pe
tr L
ebed
ev
The
impa
ct o
f fea
ture
si
ze o
n re
solu
tion
in
com
pres
sion
opt
ical
co
here
nce
elas
togr
aphy
M
att H
epbu
rn
Optic
al p
rope
rty s
tudy
of
mid
-wav
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frare
d Hg
0.79
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own
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aSb
(211
) by
mol
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ar b
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epi
taxy
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enw
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n
1230
-133
0Lu
nch
Banq
uet H
all,
Unive
rsity
Clu
b
Arts
Roo
m 6
[G.6
2]
PEG
Busi
ness
- P
hysi
cs
Educ
atio
n M
edal
invit
ed
talk
M
aria
Par
appi
lly
(Flin
ders
Uni
vers
ity)
1245
-131
5AI
P He
ad o
f Sch
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eetin
g Se
min
ar R
oom
1, U
nive
rsity
Clu
b
1330
-150
0CO
NCUR
RENT
SES
SION
8
Sess
ion:
8A -
AIP
Ast
ron
and
Astr
o +
Foc
us N
ext-
gen
Astr
o w
ith n
ew o
bser
vato
ries
8B -
AIP
Bio
phys
ics
& So
ft M
atte
r Phy
sics
8C -
AIP
Pla
sma
Phys
ics
8D -
Foc
us S
essi
on
– Na
nost
ruct
ures
&
Met
amat
eria
ls
8E -
AIP
QUI
CC
8F -
Edu
catio
n fo
r Ph
ysic
s &
Rela
ted
Disc
iplin
es
8G -
AOS
/ACO
FT
8H -
COM
MAD
W
orks
hops
Topi
c:Qu
antu
m c
ompu
tatio
n,
hybr
id q
ubits
and
ap
plic
atio
ns
High
Sch
ool P
hysi
csOp
tical
fibr
es a
nd s
ensi
ngPh
oton
ic
Dev
ices
Chai
r:Ha
yley
Big
nall
Phili
pp S
chön
höfe
r To
ny M
urph
yAn
n Ro
bert
s &
Moh
sen
Rahm
ani
Barr
y Sa
nder
sEl
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tman
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Ting
Room
:Ph
ysic
s Bu
ildin
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ss L
ectu
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heat
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[G.4
1]
Arts
Bui
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om 8
[1.6
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.61]
Arts
Bui
ldin
g Ro
om 9
[1.6
1]Ar
ts B
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Fox
Lect
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Thea
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9]
Phys
ics
Build
ing
Clew
s Le
ctur
e Th
eatr
e [2
.43]
Arts
Bui
ldin
g Au
stin
Lec
ture
The
atre
[1
.59]
Univ
ersi
ty C
lub
Audi
toriu
mAr
ts B
uild
ing
Ro
om 6
[G.6
2]
23rd Australian Institute of Physics Congress 2018 – HANDBOOK36
1330
-140
0Fa
st R
adio
Bur
sts
- As
trono
my’s
nex
t gre
at
phys
ical
labo
rato
ry
Ryan
Sha
nnon
The
Effe
ct o
f H3O
+ o
n M
embr
ane
Stru
ctur
e,
Hydr
ogen
Bon
ding
and
In
terfa
cial
Wat
er L
ayer
ing
in P
hosp
holip
id B
ilaye
rs
Evel
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Depl
azes
The
Aust
ralia
n Co
here
nce
Imag
ing
Diag
nost
ic fo
r IT
ER
Rich
ard
Garr
ett
2D-M
ater
ials
in O
ptic
al
Coat
ings
and
hig
h-Q
Brag
g Ca
vitie
s: a
Rob
ust
Plat
form
for S
trong
Co
uplin
g, Q
uant
um
Emm
issi
on a
nd N
onlin
ear
Optic
s Fa
lk E
ilenb
erge
r
Build
ing
a Qu
antu
m
Com
pute
r Usi
ng
Quan
tum
Dot
s in
Silic
on/
Silic
on-G
erm
aniu
m
Hete
rost
ruct
ures
Su
san
Copp
ersm
ith
Jaso
n Di
cker
Heav
y m
etal
oxid
e gl
ass
fiber
s: N
ew o
ppor
tuni
ties
for s
ensi
ng
Heik
e Eb
endo
rff-
Heid
eprie
m
Tow
ards
Low
-Pow
er
Reco
nfigu
rabl
e Ph
oton
ic
ICs
Base
d on
MEM
S Te
chno
logy
Ba
nafs
heh
Abas
ahl
Scie
ntifi
c W
ritin
g W
orks
hop
The
Secr
ets
of S
cien
tific
Publ
ishi
ng
Igor
Aha
rano
vich
1330
-150
0
1400
-141
5M
ulti-
mes
seng
er
astro
nom
y in
the
Grav
itatio
nal W
ave
Dete
ctio
n Er
a M
atth
ew B
aile
s
The
impa
ct o
f 3D
surfa
ce
curv
atur
e on
tiss
ue g
row
th
and
orga
niza
tion
Seba
stia
n Eh
rig
Syst
emat
ic s
tudi
es
on Z
dep
ende
nce
of
extre
me
ultra
viole
t and
so
ft X-
ray
spec
tra u
sing
hi
gh-t
empe
ratu
re fu
sion
pl
asm
as
Chih
iro S
uzuk
i
Prac
tical
Met
amat
eria
ls
Fabr
icat
ed b
y Fi
bre
Draw
ing
Sim
on F
lem
ing
A hy
brid
qua
ntum
mem
ory
for m
icro
wav
e ph
oton
s M
ykha
ilo S
avyt
skyi
Publ
ic a
nd T
each
er
Resp
onse
to E
inst
eini
an
Phys
ics
in S
choo
ls
Alex
Fop
poli
Rare
-ear
th g
lass
coa
tings
on
exp
osed
cor
e fib
res
for h
igh
spat
ial r
esol
utio
n te
mpe
ratu
re s
ensi
ng
Dani
el S
tavr
evsk
i
Tem
pera
ture
effe
cts
on
mic
roca
ntile
ver b
ased
hy
drog
en s
enso
rs
Jega
Thi
san
Guru
sam
y
1415
-143
0Al
ice
in W
onde
rland
: How
to
und
erst
and
Dem
entia
fro
m fu
ndam
enta
l X-r
ay
Optic
s Ch
risto
pher
Cha
ntle
r
Dyna
mic
ally
Switc
habl
e Co
lloid
al A
u Na
noro
d Pl
asm
onic
Pixe
ls
Nich
olas
Gre
ybus
h
Exch
ange
-bas
ed 2
-qub
it lo
gic
gate
s w
ith d
onor
s in
silic
on
Mat
eusz
Mad
zik
The
new
HSC
phy
sics
sy
llabu
s –
wha
t sup
port
do te
ache
rs n
eed?
Lo
rna
Jarr
ett
Mul
ti-w
avel
engt
h th
ird
harm
onic
gen
erat
ion
usin
g ex
pose
d-co
re
mic
rost
ruct
ured
opt
ical
fib
re
Step
hen
War
ren-
Smith
A Ne
w A
ppro
ach
to
Mod
ellin
g th
e Co
here
nce
of O
ptic
al F
eedb
ack
in
Dyna
mic
al S
emic
ondu
ctor
La
ser S
yste
ms
Deb
Kane
1430
-144
5Po
sitro
n an
nihi
latio
n in
the
Milk
y W
ay
Fion
a He
len
Pant
her
Brid
ging
the
shor
t and
lo
ng te
rm m
echa
nics
of
arti
cula
r car
tilag
e ex
trace
llula
r mat
rix
Bruc
e Ga
rdin
er
Ener
getic
par
ticle
driv
en
mod
e ac
tivity
: adv
ance
s in
un
ders
tand
ing
from
line
ar
thro
ugh
hard
non
linea
r re
gim
e M
atth
ew H
ole
Real
izatio
n of
Com
plex
-Va
lued
Bire
fring
ence
with
Di
elec
tric
Met
asur
face
s Sh
aun
Lung
Fide
lity
benc
hmar
ks fo
r tw
o qu
bit g
ates
in s
ilicon
W
iste
r Hua
ng
Embe
ddin
g hi
gh s
choo
l Ph
ysic
s te
ache
rs w
ithin
th
e un
ivers
ity s
yste
m –
re
flect
ions
by
a ‘V
isiti
ng
Teac
hing
Fel
low
’ Je
ssic
a Bu
dden
SPDC
spe
ctro
scop
y on
a
lithi
um n
ioba
te c
hip
Alex
ande
r Sol
ntse
v
Focu
sed
elec
tron
beam
in
duce
d pr
oces
sing
for
nano
phot
onic
app
licat
ions
Ja
mes
Bis
hop
1445
-150
0Ch
arac
teris
ing
“Hot
Ju
pite
r" E
xopl
anet
s Gr
aem
e M
elvi
lle
Influ
ence
of h
ydra
tion
in m
olec
ular
dyn
amic
s si
mul
atio
ns o
f DOP
C m
embr
anes
with
glyc
erol
an
d DM
SO
Chris
toph
er M
alaj
czuk
Mou
rou’
s ve
ry e
xtre
me
CPA-
Lase
r Pul
ses
for
Non-
Ther
mal
Las
er B
oron
Fu
sion
Rea
ctor
for C
lean
El
ectri
city
like
Nuc
lear
Fi
ssio
n He
inric
h Ho
ra
Mee
ting
the
chal
leng
es
of a
ccur
ate
dim
ensi
onal
m
easu
rem
ents
at t
he
nano
scal
e Ba
kir B
abic
Fide
lity
benc
hmar
ks fo
r tw
o qu
bit g
ates
in s
ilicon
St
ephe
n Ba
rtle
tt
Gene
ral r
elat
ivity
in u
pper
se
cond
ary
scho
ol: D
esig
n an
d ev
alua
tion
of a
n on
line
lear
ning
env
ironm
ent
usin
g th
e m
odel
of
educ
atio
nal r
econ
stru
ctio
n M
agda
lena
Ker
stin
g
Ther
mal
ly dr
awn
polyu
reth
ane
optic
al fi
bres
fo
r sen
sing
app
licat
ions
Si
mon
Fle
min
g
Com
paris
on o
f Si,
SiGe
an
d Ga
As p
hoto
volta
ic
mic
roce
lls fo
r pow
er-
over
-fibr
e St
even
Hin
ckle
y
1500
-153
0Af
tern
oon
Tea
Banq
uet H
all,
Unive
rsity
Clu
b
23rd Australian Institute of Physics Congress 2018 – HANDBOOK 37
1530
-174
5CO
NCUR
RENT
SES
SION
9
Sess
ion:
9A -
AIP
– M
edic
al
Phys
ics
Com
bine
d w
ith A
IP -
Syn
chro
tron
Sc
ienc
e, S
catte
ring,
M
icro
scop
y, Im
agin
g
9B -
Foc
us S
essi
on –
Da
rk M
atte
r Det
ectio
n 9C
- A
IP P
lasm
a Ph
ysic
s 9D
- F
ocus
Ses
sion
–
Nano
stru
ctur
es &
M
etam
ater
ials
9E -
AIP
ATM
OP
9F -
Foc
us S
essi
on
– Op
tical
& Q
uant
um
Bio-
Sens
ing
9G -
AOS
/ACO
FT
9H -
Foc
us S
essi
on –
50
year
s of
Bic
ontin
uous
Cu
bic
Phas
es
Educ
atio
n fo
r Phy
sics
an
d Re
late
d Di
scip
lines
–
Addi
tiona
l
Topi
c:Sc
atte
ring
Biop
hoto
nics
& p
hysi
olog
y
Chai
r:Ri
char
d Ga
rret
t &
Azin
Aza
diEl
isab
etta
Bar
berio
Snez
harn
a I.
Abar
zhi
Ann
Robe
rts
& M
ohse
n Ra
hman
iJu
lian
Bere
ngut
Davi
d Si
mps
onJi
awen
Li
Bodo
Wilt
s Ge
rd S
chro
der-
Turk
Room
:Ph
ysic
s Bu
ildin
g Cl
ews
Lect
ure
Thea
tre
[2.4
3]
Univ
ersi
ty C
lub
Audi
toriu
mAr
ts B
uild
ing
Room
5 [G
.61]
Arts
Bui
ldin
g Ro
om 8
[1.6
0]Ar
ts B
uild
ing
Fox
Lect
ure
Thea
tre
[G.5
9]
Arts
Bui
ldin
g Au
stin
Lec
ture
The
atre
[1
.59]
Arts
Bui
ldin
g Ro
om 9
[1.6
1]Ph
ysic
s Bu
ildin
g Ro
ss L
ectu
re T
heat
re
[G.4
1]
Phys
ics
Build
ing
Room
215
Lec
ture
Th
eatr
e
1530
-154
5Us
e of
nov
el p
ixela
ted
sem
icon
duct
or d
etec
tors
in
Tar
gete
d Al
pha
Ther
apy
Eva
Beza
k
Heat
ing
up N
eutro
n St
ars
with
Dar
k M
atte
r Ni
cole
Bel
l
Mat
eria
ls u
nder
ext
rem
e pl
asm
a en
viron
men
ts:
Effic
ient
one
-ste
p pl
asm
a sy
nthe
sis
of s
urfa
ce
nano
stru
ctur
es
Corm
ac C
orr
Thre
e-Di
men
sion
al
Tuni
ng o
f the
Nea
r-Fi
eld
in C
oupl
ed M
etal
Na
nost
ruct
ures
Al
ison
Fun
ston
Appl
icat
ions
of t
he
conv
erge
nt c
lose
-cou
plin
g th
eory
: fro
m a
ntih
ydro
gen
form
atio
n th
roug
h to
co
llisio
ns w
ith m
olec
ular
ta
rget
s
Igor
Bra
y
Nano
scal
e Bi
oPho
toni
cs:
usin
g na
nom
ater
ials
and
lig
ht to
und
erst
and
the
inne
r wor
king
s of
the
body
Br
ant G
ibso
n
Farm
s an
d Ph
oton
ics:
La
sers
, Milk
and
Spe
rm
Sorti
ng
Cath
er S
imps
on
Theo
ry a
nd e
xper
imen
ts
of n
ovel
pol
ycon
tinuo
us
liqui
d cr
ysta
ls
Step
hen
Hyde
Teac
hing
Nex
us:
Evol
ving
Phy
sics
Ed
ucat
ion
in O
ur
Scho
ols
(W
orks
hop
3)
Pres
ente
r: Pr
of D
avid
Bl
air (
UWA)
Ein
stei
nian
Ph
ysic
s15
30-1
700
1545
-160
0
1600
-161
5Ki
dney
nep
hron
s an
d po
docy
tes
- to
war
ds in
viv
o im
agin
g an
d im
prov
ed
clin
ical
man
agem
ent
John
Ber
tram
Sear
chin
g fo
r fuz
zy d
ark
mat
ter i
n th
e Ga
laxy
with
Pa
rkes
Pul
sar T
imin
g Ar
ray
jiang
Zhu
New
exp
erim
enta
l find
ings
of
non
-loca
l tra
nspo
rt in
J-
TEXT
and
KST
AR
Yuej
iang
Shi
Synt
hetic
opt
ical
no
nlin
earit
y in
die
lect
ric
and
plas
mon
ic
nano
susp
ensi
ons
Zhig
ang
Chen
Vibr
atio
nally
-res
olve
d el
ectro
n-im
pact
exc
itatio
n of
mol
ecul
ar h
ydro
gen
Liam
Sca
rlett
Dyna
mic
qua
ntum
sen
sing
of
par
amag
netic
spe
cies
us
ing
nitro
gen-
vaca
ncy
cent
re
Mel
issa
Mat
her
A m
inim
um o
ptic
al
fibre
set
up fo
r RED
OX
mea
sure
men
ts
Wen
Qi Z
hang
Broa
dban
d ci
rcul
ar
dich
rois
m in
met
allic
gy
roid
mic
ro-s
truct
ures
Benj
amin
Cum
min
g
1615
-163
0Se
arch
for Q
CD A
xion
Dark
Mat
ter w
ith R
adio
Te
lesc
opes
Pe
ter Q
uinn
Auge
r and
con
vers
ion
spec
trosc
opy
of m
edic
al
radi
oiso
tope
125
I Br
yan
Pi E
rn T
ee
Ligh
t Sca
tterin
g by
Do
uble
-Cyli
nder
Spi
der
Silk
Opt
ical
Mic
ro-fi
bres
De
b Ka
ne
Self-
asse
mbl
y of
hex
agon
s in
to in
finite
bic
ontin
uous
cu
bic
polyh
edra
To
mon
ari D
oter
a
1630
-164
5A
call
to a
rms:
eng
agin
g ph
ysic
ists
in th
e fig
ht
agai
nst c
ance
r M
artin
Ebe
rt
Dete
ctor
cha
ract
eris
atio
n fo
r the
SAB
RE S
outh
dar
k m
atte
r exp
erim
ent
Greg
Lan
e
Parti
cle
mot
ion
in 3
D M
HD
equi
libria
ver
sus
rela
xed
stat
es
Davi
d Pf
effe
rlé
Effe
ct o
f Sha
pe a
nd
Aggr
egat
ion
in P
lasm
onic
Ra
ndom
Las
ers
Judi
th D
awes
Trea
ting
elec
tron
and
posi
tron
trans
port
thro
ugh
liqui
ds fr
om fi
rst p
rinci
ples
Da
nny
Cock
s
Smar
t mic
rosc
opy:
An
adap
tive
way
of s
cann
ing
Nico
las
Mau
rany
apin
Trac
king
and
man
ipul
atin
g th
e fis
h in
ner e
ar to
un
ders
tand
ing
soun
d lo
caliz
atio
n M
icha
el T
aylo
r
Orig
in o
f Spo
ntan
eous
M
irror
Sym
met
ry B
reak
ing
in B
icon
tinuo
us C
ubic
and
No
n-cu
bic
Phas
es
Gora
n Un
gar
1645
-170
0Ne
w D
iffra
ctive
Opt
ics
for
Soft
X-ra
y Pt
ycho
grap
hy
Alal
eh A
min
zade
h
Ioni
satio
n si
gnat
ures
of
sub-
GeV
dark
mat
ter
due
to a
bsor
ptio
n an
d sc
atte
ring
of e
lect
rons
Benj
amin
Rob
erts
Plas
men
e: a
met
asur
face
pe
rfect
abs
orbe
r Da
niel
Gom
ez
Conv
erge
nt c
lose
-cou
plin
g ap
proa
ch to
pro
ton
collis
ions
with
hel
ium
Sh
ukhr
at A
lladu
stov
Quan
tum
enh
ance
d no
n-lin
ear m
icro
scop
yCa
txer
e Ca
saci
o
Red
mea
t qua
lity
para
met
ers
mea
sure
d us
ing
pola
risat
ion
sens
itive
OC
T Sa
m H
itchm
an
Bico
ntin
uous
Cub
ic
Phas
es fo
r Pro
tein
En
caps
ulat
ion
Char
lotte
Con
n
1700
-171
5Im
pact
of h
ighl
y ch
arge
d io
ns c
reat
ed b
y a
fem
to-
seco
nd X
-ray
pul
se o
n th
e bi
olog
ical
mol
ecul
e st
ruct
ure
reco
nstru
ctio
n Al
exan
der K
ozlo
v
Sear
chin
g fo
r Tra
nsie
nt
Dark
Mat
ter S
igna
ture
s w
ith A
tom
ic C
lock
Ne
twor
ksBe
njam
in R
ober
ts
Resu
lts fr
om L
angm
uir
Prob
e ar
rays
in th
e sc
rape
off
laye
r of t
he
Wen
dels
tein
7X
Adva
nced
St
ella
rato
r Bo
yd B
lack
wel
l
Mec
hani
stic
stu
dy o
f pr
ecur
sor c
onve
rsio
n ch
emis
try in
Co9
S8,
Ni3S
2, C
o an
d Ni
na
now
ire s
ynth
esis
Jo
hn S
cott
Posi
tron
mas
s st
oppi
ng
pow
ers
in a
tom
ic a
nd
mol
ecul
ar h
ydro
gen
Ravs
hanb
ek U
tam
urat
ov
Mid
-infra
red
mol
ecul
ar
barc
odin
g w
ith d
iele
ctric
m
etas
urfa
ces
Drag
omir
Nesh
ev
Inte
rfero
met
ric m
ultip
lexe
d fib
re s
ensi
ng u
sing
C-
shap
ed fi
bre
Lush
un X
ie
1715
-173
0W
hich
glu
e to
cho
ose?
A
neut
ron-
scat
terin
g st
udy
of v
ario
us a
dhes
ive
mat
eria
ls a
nd th
eir e
ffect
on
bac
kgro
und
scat
terin
g Ki
rrily
Rul
e
Aspe
cts
of D
ark
Mat
ter
Axio
n Cl
umps
M
ark
Hert
zber
g
An a
ttem
pt fo
r the
ther
mal
tra
nspo
rt m
odel
ling
of
fusi
on p
lasm
as b
ased
on
the
stat
istic
al a
ppro
ach
Mas
ayuk
i Yok
oyam
a
Ruby
Pay
ne S
cott
Prize
Pre
sent
atio
nM
ary
Jacq
uelin
e Ro
mer
o
Engi
neer
ing
Pent
acen
e De
rivat
ives
tow
ards
Hi
gh-P
erfo
rman
ce S
ingl
et-
Fiss
ion
Amir
Asad
poor
Dar
vish
Ultra
fast
vis
cosi
ty
mea
sure
men
t in
the
ballis
tic re
gim
e w
ith
optic
al tw
eeze
rs
Lars
Mad
sen
Diffu
se li
ght-
shee
t m
icro
scop
y fo
r stri
pe-f
ree
calc
ium
imag
ing
of n
eura
l po
pula
tions
M
icha
el T
aylo
r
Repe
ated
evo
lutio
naril
y in
depe
nden
t qua
si-o
rder
to
ord
er tr
ansi
tions
in
feat
her b
arb
biop
hoto
nic
nano
stru
ctur
es
Vino
dkum
ar S
aran
atha
n
1730
-174
5A
liter
al e
lytra
l rai
nbow
: Tu
nabl
e st
ruct
ural
col
ors
in P
achy
rrhyn
chus
wee
vils
usin
g si
ngle
dia
mon
d bi
opho
toni
c cr
ysta
ls
Bodo
Wilt
s
23rd Australian Institute of Physics Congress 2018 – HANDBOOK38
1730
-180
0Br
eak
1800
-184
5PL
ENAR
Y SE
SSIO
N 4
Octa
gon
Thea
tre
1800
-184
5Pr
ofes
sor R
aine
r Wei
ss –
The
beg
inni
ngs
of g
ravit
atio
nal w
ave
astro
nom
yIn
trodu
ced
by S
ean
Salte
r (W
oods
ide)
Co C
hairs
- D
avid
Bla
ir an
d To
m R
idsd
ill-S
mith
1930
-220
0CO
NGRE
SS D
INNE
R Gr
ound
Flo
or T
erra
ce, U
nive
rsity
Clu
b-
incl
udes
pre
sent
atio
n of
Har
rie M
asse
y M
edal
by
Dam
e Ju
lia H
iggi
ns IO
P
Thur
sday
13
Dece
mbe
r 201
8
0730
-180
0Re
gist
ratio
n op
en
Conf
eren
ce F
oyer
, Uni
vers
ity C
lub
0900
-103
0PL
ENAR
Y SE
SSIO
N 5
Octa
gon
Thea
tre
0900
-094
5
0945
-103
0
Prof
Mon
ika
Rits
ch-M
arte
(M
edic
al U
nive
rsity
of I
nnsb
ruck
, Aus
tria)
– B
iom
edic
al O
ptic
s, H
olog
raph
y an
d Op
tical
Tra
ppin
gCh
air:
Halin
a Ru
bins
ztei
n-Du
nlop
Prof
Gar
th Il
lingw
orth
(UC
Sant
a Cr
uz/L
ick
Obse
rvat
ory)
– G
alax
ies
at C
osm
ic D
awn:
Exp
lorin
g th
e Fi
rst B
illion
Yea
rs w
ith th
e Hu
bble
Spa
ce T
eles
cope
Chai
r: Ca
thry
n Tr
ott
1030
-110
0M
orni
ng T
ea
Gro
und
Floo
r Ter
race
, Uni
vers
ity C
lub
1100
-123
0CO
NCUR
RENT
SES
SION
10
Sess
ion:
10A
- AIP
Ast
ron
and
Astr
o +
Fo
cus
Next
-gen
Ast
ro w
ith
new
obs
erva
torie
s
10B
- AIP
Nuc
lear
& P
artic
le
Phys
ics
10C
- AIP
CM
M
10D
- AIP
ATM
OP
10E
- AIP
QUI
CC
10F
- AIP
QUI
CC
10G
- A
OS/A
COFT
10
H - A
IP B
ioph
ysic
s &
Soft
Mat
ter P
hysi
cs
Topi
c:M
icro
wav
e,Te
rahe
rtz, O
ptic
al
and
X-Ra
y sp
ectro
scop
yEx
otic
ato
mic
sys
tem
s an
d ap
plic
atio
nsSp
ins
and
qubi
tsQu
antu
m in
form
atio
n pr
oces
sing
, ion
trap
sSt
ruct
ured
ligh
t and
mat
eria
l in
tera
ctio
ns
Chai
r:Li
ster
Sta
vele
y-Sm
ithM
icha
el P
aul
Step
hen
Thur
gate
Ni
ck R
obin
sJi
angf
eng
DuXi
nhua
Pen
gJo
hn H
arve
yEv
elyn
e De
plaz
es
Room
:Ph
ysic
s Bu
ildin
g Cl
ews
Lect
ure
Thea
tre
[2.4
3]
Phys
ics
Build
ing
Ross
Lec
ture
The
atre
[G.4
1]Ar
ts B
uild
ing
Room
8 [1
.60]
Arts
Bui
ldin
g Ro
om 9
[1.6
1]Ar
ts B
uild
ing
Fox
Lect
ure
Thea
tre
[G.5
9]Ar
ts B
uild
ing
Aust
in L
ectu
re T
heat
re
[1.5
9]
Univ
ersi
ty C
lub
Audi
toriu
mAr
ts B
uild
ing
Room
5 [G
.61]
1100
-113
0Sc
ienc
e hi
ghlig
hts
from
the
ASKA
P ra
dio
tele
scop
e
Elai
ne S
adle
r
Trac
king
the
emer
genc
e of
‘s
impl
e’ c
olle
ctive
nuc
lear
ex
cita
tions
in n
ucle
i. Ho
w d
o th
ey a
rise
from
the
unde
rlyin
g co
mpl
ex n
ucle
onic
mot
ion?
An
drew
Stu
chbe
ry
Tera
hertz
Fre
quen
cy
Phen
omen
a in
Con
dens
ed
Mat
ter a
nd M
ater
ials
Phy
sics
Ro
ger L
ewis
Drop
let c
ryst
al g
roun
d st
ates
of
a d
ipol
ar B
ose
gas
Blai
r Bla
kie
Supe
rradi
ance
and
th
erm
aliza
tion
in h
ybrid
qu
antu
m s
yste
ms
Ka
e Ne
mot
o
Diffe
rent
ial e
volu
tion
for i
on-
trap
gate
des
ign
Barr
y Sa
nder
s
Stru
ctur
ed li
ght f
or n
ano-
and
m
icro
man
ipul
atio
n Ha
lina
Rubi
nszt
ein-
Dunl
op
Phys
ics
of c
ell a
dhes
ion:
The
ro
le o
f the
mem
bran
e in
the
prot
ein
reco
gniti
on p
roce
ss
Henn
ing
Stum
pfAn
a-Su
ncan
a Sm
ith
1130
-114
5Th
e Ph
ase
II M
urch
ison
W
idefi
eld
Arra
y: C
urre
nt
Stat
us a
nd F
utur
e Pl
ans
Mel
anie
Joh
nsto
n-Ho
llitt
Phys
ics
of th
e no
n-He
rmiti
an
free
para
ferm
ion
Z(N)
spi
n ch
ain
Mur
ray
Batc
helo
r
Adva
nced
liqu
id c
ryst
allin
e m
ater
ials
for l
aser
ap
plic
atio
ns c
hara
cter
ised
w
ith h
igh-
Tran
smis
sion
of
light
(T>
97.5
%) a
nd v
ery
low
Refl
ectio
n (R
<0.
7%)
at V
ISib
le, N
ear,
Shor
t and
M
ediu
m In
fraRe
d re
gion
s Zb
igni
ew R
aszw
eski
Nove
l Cor
rela
tions
nea
r an
Orbi
tal F
eshb
ach
Reso
nanc
e Em
ma
Laird
Mic
row
ave
mixi
ng b
y a
stro
ngly
drive
n qu
antu
m d
otM
ark
Hogg
Trap
ped
ion
fast
gat
es s
cale
fa
vour
ably
in m
icro
trap
arra
ys in
the
pres
ence
of
mic
rom
otio
n Jo
e Ho
pe
Tow
ards
sta
biliz
atio
n of
an
optic
ally
levit
ated
mac
rosc
opic
m
irror
Ji
nyon
g M
a
Sphe
rical
tilin
gs w
ith A
BC s
tar
polym
ers
- a
thre
e co
lore
d Th
omso
n pr
oble
m?
Tobi
as H
ain
1145
-120
0On
the
orig
in o
f asy
mm
etric
fis
sion
Ce
dric
Sim
enel
Ultra
sens
itive
Mic
row
ave
Spec
trosc
opy
of S
pin
Ense
mbl
es in
Mul
ti-M
ode
Diel
ectri
c Cr
ysta
l Res
onat
ors
at 2
0 m
K M
d Ak
hter
Hos
ain
Fini
te-t
empe
ratu
re d
ynam
ics
of s
hock
wav
es in
an
ultra
-co
ld F
erm
i gas
Ri
a Jo
seph
Nucl
ear E
lect
ric R
eson
ance
of
the
7/2
spin
of a
sin
gle
123S
b io
n Vi
ncen
t Mou
rik
Ex-v
acuu
m p
hase
Fre
snel
le
nses
for T
rapp
ed Io
n Qu
antu
m In
form
atio
n Pr
oces
sing
Er
ik S
tree
d
Robu
st th
erm
o-op
tic
stab
ilisat
ion
of o
ptic
al s
prin
gs
Paul
Alti
n
Self-
asse
mbl
y of
cub
ic p
hase
s in
pea
r-sh
aped
nan
opar
ticle
sy
stem
s Ph
ilipp
Sch
önhö
fer
23rd Australian Institute of Physics Congress 2018 – HANDBOOK 39
Sess
ion:
10A
- AIP
Ast
ron
and
Astr
o +
Fo
cus
Next
-gen
Ast
ro w
ith
new
obs
erva
torie
s
10B
- AIP
Nuc
lear
& P
artic
le
Phys
ics
10C
- AIP
CM
M
10D
- AIP
ATM
OP
10E
- AIP
QUI
CC
10F
- AIP
QUI
CC
10G
- A
OS/A
COFT
10
H - A
IP B
ioph
ysic
s &
Soft
Mat
ter P
hysi
cs
1200
-121
5Th
e SK
A-Lo
w A
pertu
re A
rray
Verifi
catio
n Sy
stem
: res
ults
an
d pl
ans
Rand
all W
ayth
Deep
Neu
ral N
etw
orks
for
anal
ysis
of r
are
B-de
cays
at
Belle
and
Bel
le II
M
artin
Sev
ior
X-Ra
y Sp
ectro
met
ry b
y M
icro
calo
rimet
ry -
Mul
ti De
tect
or S
yste
m w
ith re
al
time
data
ana
lysis
St
ephe
n Th
urga
te
A fin
ite te
mpe
ratu
re m
odel
of
the
early
uni
vers
e Ki
ng N
g
Imag
ing
valle
y in
terfe
renc
e to
ta
ckle
exc
hang
e va
riatio
ns fo
r do
nors
in s
ilicon
Be
noit
Vois
in
High
Per
form
ance
Ram
an
Mem
ory
with
Spa
tio-t
empo
ral
Reve
rsal
Ka
run
Paul
Ther
mod
ynam
ic m
icro
scop
ic
mac
hine
Sh
u Zh
ang
Equi
libriu
m re
ason
ing
for
activ
e pa
rticl
es -
wha
t doe
s it
real
ly m
ean?
Re
né W
ittm
ann
1215
-123
0JW
ST S
tatu
s: In
sigh
ts in
to th
e Ch
alle
nges
of C
onst
ruct
ing
the
mos
t Com
plex
Spa
ce
Tele
scop
e Ev
er
Gart
h Ill
ingw
orth
Acce
lera
tor M
ass
Spec
trom
etry
: the
Sta
te o
f its
Ar
t with
a 1
5MV
Acce
lera
tor
Keith
Fifi
eld
Inte
ract
ion
of B
esse
l-bea
m-
stru
ctur
ed u
ltras
hort
lase
r pu
lses
with
tran
spar
ent m
edia
Lu
dovi
c Ra
pp
Gouy
pha
se in
terfe
rom
eter
an
d its
app
licat
ions
M
umta
Hen
a M
usta
ry
Rota
tion-
sym
met
ric e
ncod
ings
of
a q
ubit
into
an
osci
llato
r Be
n Ba
ragi
ola
Sing
le-p
hoto
n no
n-re
cipr
ocal
tra
nspo
rt co
ntro
lled
by a
si
ngle
ato
m
Keyu
Xia
High
-spe
ed th
ree-
dim
ensi
onal
di
rect
opt
ical
forc
e m
easu
rem
ent
Tim
o Ni
emin
en
Soft
inte
ract
ions
in th
e Lo
rent
z m
odel
: ano
mal
ous
trans
port
in
crow
ded
med
ia
Char
lotte
Pet
erse
n
1230
-133
0Lu
nch
Gro
und
Floo
r Ter
race
- U
nive
rsity
Clu
b
1245
-131
5De
cada
l Pla
n To
wn
Hall
Mee
ting
Phy
sics
Bui
ldin
g, R
oom
215
1245
-144
5AO
S Co
unci
l Mee
ting
Sem
inar
Roo
m 1
, Uni
vers
ity C
lub
1330
-150
0CO
NCUR
RENT
SES
SION
11
Sess
ion:
11A
- A
IP A
stro
n an
d As
tro
+ F
ocus
Nex
t-ge
n As
tro
with
ne
w o
bser
vato
ries
11B
- AIP
Nuc
lear
& P
artic
le
Phys
ics
11C
- AIP
CM
M11
D - A
IP A
TMOP
11E
- AIP
QUI
CC
11F
- AIP
QUI
CC
11G
- AOS
/ACO
FT
11H
- AIP
Com
plex
Sys
tem
s &
Com
puta
tiona
l Phy
sics
Topi
c:Sp
ace
Scie
nce
and
Defe
cts
in
diam
ond
Quam
tum
mea
sure
men
tSp
in q
ubits
and
app
licat
ions
Spin
and
Top
olog
ical
qua
ntum
co
mpu
ting
Nano
stru
ctur
es, p
lasm
onic
s an
d m
etas
urfa
ces
Chai
r:Cl
audi
a La
gos
Andr
ew S
tuch
bery
Alas
tair
Stac
ey
Jesp
er L
evin
sen
Geof
f Pry
deM
ile G
uRo
bert
McL
augh
linTo
bias
Hai
n
Room
:Ph
ysic
s Bu
ildin
g Cl
ews
Lect
ure
Thea
tre [2
.43]
Phys
ics
Build
ing
Ross
Lec
ture
The
atre
[G.4
1]Ar
ts B
uild
ing
Room
8 [1
.60]
Arts
Bui
ldin
g Ro
om 9
[1.6
1]Ar
ts B
uild
ing
Fox
Lect
ure
Thea
tre
[G.5
9]Ar
ts B
uild
ing
Aust
in L
ectu
re T
heat
re [1
.59]
Univ
ersi
ty C
lub
Audi
toriu
mAr
ts B
uild
ing
Room
5 [G
.61]
1330
-134
5Gl
obal
21-
cm s
igna
l fro
m
Cosm
ic D
awn
and
the
Epoc
h of
Rei
oniza
tion
Ravi
Sub
rahm
anya
n
Sim
ple
(but
not
too
sim
ple)
de
scrip
tions
of p
artic
le d
ark
mat
ter
Nico
le B
ell
Spac
e ph
ysic
s re
sear
ch
proj
ects
at R
MIT
Phy
sics
Ga
il Ile
s
Quan
tum
con
trol o
f phy
sica
lly
rota
ting
qubi
ts
Andy
Mar
tin
Quan
tum
Con
trol o
f Spi
ns in
So
lids
Jian
gfen
g Du
Zero
- to
ultr
alow
-fiel
d nu
clea
r m
agne
tic re
sona
nce
and
its
appl
icat
ions
Xi
nhua
Pen
g
Plas
mon
ic a
ppro
ache
s to
op
tical
info
rmat
ion
proc
essi
ng
Ann
Robe
rts
Gras
sman
n Ph
ase
Spac
e Th
eory
for F
erm
ions
Br
yan
Dalto
n
1345
-140
0Br
ain-
like
colle
ctive
dyn
amic
s in
a n
euro
mor
phic
nan
owire
sw
itch
netw
ork
Zden
ka K
unci
c
1400
-141
5Fo
reca
stin
g an
d in
terp
retin
g ob
serv
atio
ns o
f the
firs
t ga
laxie
s an
d th
e Ep
och
of
Reio
nisa
tion
Sim
on M
utch
Dete
rmin
atio
n of
pre
cisi
on
fusi
on c
ross
sec
tions
with
a
supe
rcon
duct
ing
sole
noid
al
sepa
rato
r La
uren
Bez
zina
Mag
netic
circ
ular
dic
hroi
sm
spec
trosc
opy
of th
e ni
troge
n-va
canc
y ce
ntre
in d
iam
ond
Mic
hael
Bar
son
Corre
late
d el
ectro
n-io
n pa
irs
as a
sou
rce
of h
eral
ded
ions
An
drew
McC
ullo
ch
Silic
on-v
acan
cy c
entre
s in
na
nodi
amon
ds fo
r eng
inee
red
quan
tum
app
licat
ions
La
chla
n Ro
gers
Engi
neer
ing
long
itudi
nal
coup
ling
in M
ajor
ana
qubi
t sy
stem
s Th
omas
Sm
ith
III-V
sem
icon
duct
or re
sona
tors
on
insu
lato
r for
nan
osca
le
nonl
inea
r opt
ics
Moh
sen
Rahm
ani
Com
bini
ng C
ompu
tatio
nal
Phys
ics
and
Evol
utio
nary
Al
gorit
hms
to C
reat
e Ne
w
Tailo
red
for P
urpo
se G
ranu
lar
Mat
eria
ls
Gary
Del
aney
1415
-143
0M
easu
ring
the
evol
utio
n of
th
e ea
rly U
nive
rse
with
radi
o ob
serv
atio
ns o
f the
Moo
n Be
njam
in M
cKin
ley
A Le
ptoq
uark
Mod
el to
Add
ress
Fl
avou
r Ano
mal
ies
and
Gene
rate
Ra
diat
ive N
eutri
no M
ass
Inne
s Bi
gara
n
Prim
al s
urfa
ce d
efec
ts o
f di
amon
d: s
urfa
ce n
oise
so
urce
s
Alas
tair
Stac
ey
Spin
ning
spi
ns: e
xplo
ring
rota
tiona
l phy
sics
with
qu
antu
m s
enso
rs
Alex
ande
r Woo
d
Spin
cha
rge
sepa
ratio
n w
ith
quan
tum
crit
ical
ity
Xiw
en G
uan
Topo
logi
cal Q
uant
um
Com
puta
tion
with
Non
-Abe
lian
Vorte
x An
yons
Ta
pio
Sim
ula
Mac
hine
Lea
rnin
g fo
r Vis
cous
Dr
ag o
f Par
ticle
s in
a F
luid
La
chla
n Gi
bson
1430
-144
5As
troph
ysic
al A
nd S
pace
W
eath
er S
tudi
es o
f In
terp
lane
tary
Sci
ntilla
tion
with
th
e M
urch
ison
Wid
efiel
d Ar
ray
John
Mor
gan
Prec
isio
n m
ultip
le C
oulo
mb
exci
tatio
n in
Cd-
111
with
GR
ETIN
A Be
n Co
ombe
s
Incr
ease
d d
ensi
ty o
f flu
ores
cent
def
ects
in
diam
ond
by h
igh t
empe
ratu
re
elec
tron
beam
irra
diat
ion
Phili
pp R
eine
ck
Ther
mal
ly-ro
bust
spi
n co
rrela
tions
bet
wee
n tw
o at
oms
Stua
rt S
zige
ti
Disc
over
y an
d en
gine
erin
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23rd Australian Institute of Physics Congress 2018 – HANDBOOK40
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23rd Australian Institute of Physics Congress 2018 – HANDBOOK 41
23rd Australian Institute of Physics Congress 2018 – HANDBOOK42
venue maps
Conference Foyer: .................................................................... Registration DeskBanquet Hall: ............................................................................. Exhibition and cateringBanquet Hall/Banquet Hall Foyer/Lower Colonnade: ...... PostersGround Floor Terrace: .............................................................. Welcome Reception/Dinner/Thursday cateringSeminar Room 1: ...................................................................... Diversity and Equity Group in Australian Physics Workshop
Ground Level FloorplanUniversity Club of Western Australia
23rd Australian Institute of Physics Congress 2018 – HANDBOOK 43
Upper Level FloorplanUniversity Club of Western Australia
Auditorium: .....................ANFF workshop (Sunday only) and Concurrent sessions (Mon-Thurs)Club Restaurant: ...........Physics Education Group High Tea
23rd Australian Institute of Physics Congress 2018 – HANDBOOK44
University of Western Australia Map
University Club of Western Australia: ....ANFF workshop, exhibition, posters, catering, social functions, concurrent sessions, workshopsArts Building: ...............................................Concurrent sessionsPhysics Building: ........................................Concurrent sessionOctagon Theatre: ........................................Plenary sessions and Public LectureAccommodation: ........................................Trinity, St Catherine’s, St George’s
23rd Australian Institute of Physics Congress 2018 – HANDBOOK 45
UNIVERSITY PARTNERS
Curtin University’s Department of Physics and Astronomy is rapidly growing in student numbers and high-impact research outputs. Following the award of the low-frequency component of the Square Kilometre Array to Western Australia, the department has organised its undergraduate teaching and research around the areas of astrophysics, applied physics, materials science and theoretical physics. Curtin University is ranked in the top 2% of universities globally with around 56,000 students in campuses in Perth, Kalgoorlie, Dubai, Malaysia, Mauritius and Singapore.
W: curtin.edu.au
The University of Western Australia (UWA) is one of Australia’s leading universities and has an international reputation for excellence in teaching, learning and research. Established in 1911 UWA is one of the oldest universities in Australia. UWA is a World Top 100 university, ranked first in WA.
Amongst the University’s distinguished alumni are two Nobel Prize winners in medicine and a Fields Medallist in mathematics. UWA’s leafy campus on the banks of the Swan River is host to over 23,000 undergraduate, postgraduate and research students across four Faculties, Engineering and Mathematical Sciences, Science, Health and Medical Sciences and Arts, Business, Law and Education.
W: uwa.edu.au
WELCOME RECEPTION
At the CNBP we use the power of light to measure, seeking to understand the complex molecular processes that underpin the living body, as well as other dynamic biological systems. Our approaches and technologies encompass Discovery—of chemical, nanomaterial and fibre based light responsive tools—that Sense and that can also Image. Bringing these three core capability areas together, we are driving the development of innovative new molecular sensing tools that have broad application across the biosciences, medical, agriculture, food and manufacturing sectors. We have research focused nodes at the University of Adelaide, Macquarie University, RMIT University and Griffith University.
W: cnbp.org.au
SUNDOWNER POSTER SESSION
The Optical Society (OSA) is a leading professional organization that provides quality research, inspired interactions and dedicated resources for its extensive global network of optics and photonics experts. Learn more at osa.org.
W: osa.org
sponsors and exhibitors
The Australian Institute of Physics Congress 2018 Committee gratefully acknowledge our sponsors and exhibitors.
23rd Australian Institute of Physics Congress 2018 – HANDBOOK46
NOBEL PRIZE LECTURE
Sponsoring Professor Rainer Weiss
Woodside is Australia’s largest independent oil and gas company with a global portfolio, recognised for world-class capabilities – as an explorer, a developer, a producer and a supplier of energy. Woodside’s technology strategy has been recently updated to ensure a continuing focus on conventional oil and gas technologies and data-driven breakthroughs, while also prioritising carbon management and the development of new energy sources.
W: woodside.com.au
PLENARY LECTURE
Sponsoring Professor Philippa Browning
ANSTO leverages great science to deliver big outcomes. We partner with scientists and engineers and apply new technologies to provide real-world benefits.
Our work improves human health, saves lives, builds our industries and protects the environment.
ANSTO is the home of Australia’s most significant landmark and national infrastructure for research. Thousands of scientists from industry and academia benefit from gaining access to state-of-the-art instruments every year.
To contact ANSTO you can call the main switchboard on +61 2 9717 3111
P: 02 9717 3111W: ansto.gov.auA (Sydney): New Illawarra Road, Lucas
Heights NSW 2234A (Melbourne): 800 Blackburn Road, Clayton
VIC 3168
The Australian Research Council Centre of Excellence for Quantum Computation and Communication Technology (CQC2T) is working to create a universal quantum computing ecosystem. CQC2T undertakes world-class research in silicon and optical quantum computing, quantum communication, quantum interconnects and other quantum technologies. The centre is headquartered at UNSW and comprises more than 200 researchers from seven of Australia’s top research institutions, forming one of the largest combined and focused efforts in quantum computation and communication in the world.
E: [email protected]: cqc2t.orgTwitter: @QuantumC2TLinkedIn: cqc2t
KEYNOTE SPEAKER TRAVEL
The ARC Centre of Excellence for Gravitational Wave Discovery (OzGrav) is using the historic first detections of gravitational waves to understand extreme physics and warped spacetime, and to test the limits of Einstein’s theory of General Relativity.
OzGrav brings together disciplines spanning advanced instrumentation to big data and astronomy. Through our cutting edge research, OzGrav aims to inspire young people into careers in science and technology, and educate the public about the Universe. It is a partnership between Swinburne University, ANU, Monash, University of Melbourne, University of Adelaide and UWA.
Contact: Professor Matthew Bailes, Swinburne University
W: ozgrav.org
23rd Australian Institute of Physics Congress 2018 – HANDBOOK 47
INDUSTRY DAY
The Institute of Physics is a leading scientific membership society working to advance physics for the benefit of all. Alongside professional support for its members, it engages with policymakers and the public to increase awareness and understanding of the value that physics holds for all of us.
Its subsidiary company, IOP Publishing, is a world leader in scientific communications, publishing journals, ebooks, magazines and websites globally.
W: iop.org A: 37 Caledonian Road, London N1 9BU
SESSION SPONSOR
Established under the National Collaborative Research Infrastructure Strategy, the Australian National Fabrication Facility (ANFF) provides academia and industry with access to more than 500 state-of-the-art micro/nanofabrication facilities spread across 21 Australian institutions.
For more than a decade ANFF has been enabling research through a mixture of training, expert support and direct access.
From proving principles to producing prototypes, the network is helping to bring about new generations of medical devices, materials, electronics, photonics, and more.
P: 03 9902 9619E: [email protected]: anff.org.auA: 151 Wellington Road, Clayton VIC 3168
AOS PARTNER DAY
SPIE, the international society for optics and photonics, was founded in 1955 to advance light-based technologies. With over 18,000 individual and 650 corporate members from more than 160 countries, the not-for-profit society serves the entire global photonics community. SPIE enables innovation—from fundamental research to product development—through conferences, exhibitions, publications, professional development, and industry advocacy. In 2018, SPIE provided $4 million in support of education and outreach programs.
W: spie.org
DE-GAP Brunch
The Australian Research Council Centre of Excellence for Engineered Quantum Systems (EQUS) unites leading researchers from five Australian universities in building quantum machines that harness the full spectrum of quantum physics. We will solve the most challenging research problems at the interface of basic quantum physics and engineering, and work with partners in industry to translate these research discoveries into practical applications and devices. Our capacity building programs will train a new generation of scientists in cutting-edge fundamental research, innovation, and entrepreneurialism, and ultimately have a major impact on Australia’s high-tech economy.
W: equs.org
23rd Australian Institute of Physics Congress 2018 – HANDBOOK48
PHYSICS EDUCATION GROUP (PEG) HIGH TEA
IOP Publishing is a society-owned scientific publisher, providing impact, recognition and value for the scientific community.
Wholly owned by the UK Institute of Physics (iop.org), we work closely with researchers, academics, and partners worldwide to produce academic journals, ebooks, conference series, and digital products, covering the latest and best research in the physical sciences and beyond.
Any profit IOP Publishing makes goes directly to the Institute to support its activities.
Visit ioppublishing.org for more information
Contact: Fiona Walker, Global Exhibitions & Conference Manager
P: +44 (0)1179 301281W: ioppublishing.org
EDUCATION GRANT
The Nanotechnology field is one of the fastest growing areas of research and technology. The Australian Nanotechnology Network (ANN), is dedicated to substantially enhancing Australia’s research outcomes in this important field by promoting effective collaborations, exposing researchers to alternative and complementary approaches from other fields, encouraging forums for postgraduate students and early career researchers, increasing nanotechnology infrastructure, enhancing awareness of existing infrastructure, and promoting industry and international links.
The ANN will achieve these goals through its dedication to bringing together all the various groups working in the field of Nanotechnology and related areas within Australia.
The International Conference on Nanoscience and Nanotechnology is the major forum designed to achieve these goals.
W: ausnano.net
NAME BADGE/LANYARDS
IPAS is one of six world-leading research institutes at the University of Adelaide. The mission of IPAS is to use the power of light to make the world healthier, wealthier and safer. We are doing this by building unique sensors which harness the powerful properties of light.
W: adelaide.edu.au/ipas
CONTRIBUTING SPONSOR
Institute of Advanced Studies
The Institute of Advanced Studies brings researchers from all over the world to The University of Western Australia, with the aim of further enhancing UWA’s global research profile.
W: ias.uwa.edu.au
PEOPLE’S CHOICE POSTER AWARD
The IEEE Western Australia Section caters for the needs of all IEEE members in Western Australia. The Section has an ongoing programme of technical events.
W: ewh.ieee.org/r10/w_australia/
23rd Australian Institute of Physics Congress 2018 – HANDBOOK 49
CONFERENCE SUPPORTED BY
Perth Convention Bureau (PCB) is Western Australia’s official convention bureau that assists in driving business tourism into the state.
PCB works collaboratively with our Western Australian industry members to ensure every event is an outstanding success. We offer funding and support to association conferences, corporate and incentive meetings. Our services are complimentary and are designed to assist you with areas such as funding, bidding, planning and marketing your conference, corporate meeting or incentive group.
Experience a truly extraordinary conference in Perth - a modern, vibrant, world class city that is breathtakingly beautiful, surrounded by natural wonders and set on the banks of the stunning Swan River.
W: pcb.com.au
EXHIBITION BOOTHS
The AIP is the leading professional body working to promote the role of physics in research, education, industry and the community both in Australia and Internationally. Physics provides the basis for much of our current understanding of the world as well as underpinning many established and emerging technologies and is important to Australia’s cultural and economic development. Come and discuss membership options and the benefits of becoming an AIP member.
W: aip.org.au
Coherent Scientific specialises in the supply and support of scientific lasers, spectroscopy systems, microscopes and related equipment. We are the local distributor for highly reputable companies such as Andor, Aerotech, Bruker, Coherent Inc, LakeShore, Nikon, Quantel and TMC.
We have supported our customers for almost 30 years with our experienced sales and service personnel located throughout Australia and New Zealand.
W: coherent.com.au
Ezzi Vision’s core business is the supply of vacuum, glove box and thin film coating equipment to universities, research & scientific institutes and industrial companies.”With over 30 years of combined vacuum technology experience, Ezzi Vision can provide you with products, service, training, and customer support like no other supplier”. Housing over more than 18 different dealerships and 1600 varied products through our facilities in Melbourne and Sydney, we also offer our customers service contracts covering both normal and preventative maintenance.
Ezzi Vision is truly a one stop shop for complete vacuum solutions.
P: 1800 463 994E: [email protected]: ezzivision.com.au
23rd Australian Institute of Physics Congress 2018 – HANDBOOK50
IOP Publishing is a society-owned scientific publisher, providing impact, recognition and value for the scientific community.
Wholly owned by the UK Institute of Physics (iop.org), we work closely with researchers, academics, and partners worldwide to produce academic journals, ebooks, conference series, and digital products, covering the latest and best research in the physical sciences and beyond.
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23rd Australian Institute of Physics Congress 2018 – HANDBOOK 51
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23rd Australian Institute of Physics Congress 2018 – HANDBOOK52
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23rd Australian Institute of Physics Congress 2018 – HANDBOOK 53
POSTER PROGRAM
Poster Session – Monday 10 December5.30pm – 6.30pm
NO PRESENTER POSTER TITLE
AIP - ASTRONOMY AND ASTROPHYSICS
1 James Beattie Queensland University of Technology
Fractal Geometry through the Sonic Scale of the World’s Largest Turbulence Simulations
2 Gurashish Singh Bhatia International Centre for Radio Astronomy Research (ICRAR)
The Central Redundant Array Mega-Tile at the Murchison Radio Astronomy Observatory
3 Charles Gravestock University of Western Australia
The Phase Synchronisation System for the Mid-Frequency Square Kilometre Array Radio Telescope
4 Paul Hancock Curtin University
Space Situational Awareness with the Murchison Widefield Array
AIP - ATOMIC & MOLECULAR PHYSICS
5 Srivatsa Badariprasad University of Melbourne
Instability of Rotationally-Tuned Dipolar Bose-Einstein Condensates
6 Francis Bayocboc University of Queensland
Dynamics of thermalisation of two tunnel-coupled quasicondensates
8 Julian Berengut University of New South Wales
AMBiT: A program for high-precision relativistic atomic structure calculations
9 Dashavir Chetty Griffith University
Strong field excitation of Argon with few-cycle laser pulses
10 Jonathan Dean University of Melbourne
Absolute energy of the K alpha emission spectrum of Scandium
11 Zhi-Tao Deng University of Queensland
Properties of Superfluid Flow Between Reservoirs
12 Bernard Field Monash University
Variational approach for modelling Bose polarons at finite temperature
13 Daniel Flynn University of Melbourne
Muonic hydrogen and the proton radius problem
14 Dmitry Fursa Curtin University
Electron-impact dissociation of molecular hydrogen
16 Guillaume Gauthier University of Queensland
Transport Dynamics of an Atomtronic LRC Circuit
17 Amy Geddes University of New South Wales
Saturated configuration interaction calculations for five-valent Ta and Db
18 Rohan Glover Griffith University
Frustrated tunneling ionization dynamics with CEP locked pulses
19 Kwan Goddard Lee University of Queensland
Non-Symmetric Vortex equilibria in a Boes-Einstein condensate
20 Joshua Guanzon University of Queensland
Simulation of the Jarzynski equality in a finite temperature Bose gas
NO PRESENTER POSTER TITLE
22 John McFerran University of Western Australia
Comparison of frequency-to-voltage converters for laser frequency stabilisation and cooling of atoms
23 Matt Reeves University of Queensland
Bistability and non-equilibrium condensation in a driven-damped atomic superfluid
24 Oliver Sandberg University of Queensland
Exact Floquet analysis of time-averaged trapping potentials
25 Grace Sawyer Curtin University
Electron collisions with negative ions
26 Matthew van Eck Curtin University
Cross Sections and Spin Asymmetries for Electron Collisions with Lead Atoms
27 Raymon Watson EQUS University of Western Australia
Optical dipole trapping of ytterbium for an optical lattice clock
28 Daniel Wells University of Melbourne
A phase space perspective on high harmonic generation using Wigner quasiprobability distributions
AIP - BIOPHYSICS & SOFT MATTER PHYSICS
29 Declan Armstrong University of Queensland
Three Dimensional Manipulation and Force Measurement of Microorganisms
30 Azin Azadi Murdoch University
3D printed mechanical meta-materials and bone scaffolds: non-linear elastic behaviour in a “severed” Diamond network.
31 Itia Favre-Bulle University of Queensland
High speed multiple particle tracking for biological applications
32 Jan Gluschke University of New South Wales
Monolithic complementary nafion-gated nanowire circuits with kHz response for bioelectronics applications
33 René Wittmann Heinrich-Heine-Universität Düsseldorf
Density functional theory for two-dimensional hard rods
AIP - COMPLEX SYSTEMS & COMPUTATIONAL PHYSICS
34 Snezhana I. Abarzhi University of Western Australia
Effect of noise on Rayleigh-Taylor mixing with time-dependent acceleration
35 Snezhana I. Abarzhi University of Western Australia
Stability of an accelerated hydrodynamic discontinuity
36 Ryan Kidd University of Queensland
Phase space methods for nonlinear quantum dynamics in atomic BECs
23rd Australian Institute of Physics Congress 2018 – HANDBOOK54
NO PRESENTER POSTER TITLE
AIP - CONDENSED MATTER & MATERIAL
37 Alireza Aghajamali Curtin University
Xenon Release upon Thermal Annealing of Nanodiamonds: A Molecular Dynamics Study
38 Tomi Baikie Cambridge University
Singlet Fission Luminescent Solar Concentrators
39 Nicholas Collins University of Melbourne
Towards deterministic implantation of colour centres in diamond
40 Daniel Creedon University of Melbourne
Irradiation induced modification of superconductivity in boron doped diamond
41 Martin Cyster RMIT University
Simulation of low pressure oxidation in Josephson junction fabrication
42 Guochu Deng Australian Nuclear Science & Technology Organization
The Cold-Neutron Triple-Axis Spectrometer SIKA at OPAL
43 Masaaki Doi Tohoku Gaukin University
Magneto-optical Keer Effect of D022-Mn3Ga/Cr/L10-MnGa Trilayered Circler Dots
44 Ruhao Fang University of Sydney
Strain-engineered Ultrahigh Mobility in Phosphorene for Terahertz Frequency Transistors
45 Fabio Isa CSIRO Manufacturing
Nano-diamonds on group-IV semiconductor substrates for quantum optics
46 Mark Johnson University of New South Wales
Electrical control of a single spin-7/2 123Sb donor in 28Si
47 Akib Karim RMIT University
Ab-initio photoluminescence spectrum of NV−centres in small nanodiamonds
48 Mykhailo Klymenko RMIT University
Multi-electron states of phosphorus dopants in silicon nano-structures
49 Mikhail Kostylev University of Western Australia
Effects of hydrogen on the ferromagnetic resonance of Ni80Fe20/Y/Pd multilayer films
50 Ross Leon University of New South Wales
Electrically driven spin qubits with micromagnet in Silicon-MOS quantum dots
51 Hironari Okada Tohoku Gakuin University
Martensitic phase transition under high pressure in Heusler alloy Pd2Mn1+xSn1-x
52 William Pappas ARC Centre of Excellence in Exciton Science
Spatial variation and correlation of spin and magnetoluminescence in organic light-emitting diodes
53 Alexandr Sadovnikov Saratov State University
Brillouin light scattering study of strain-controlled Yttrium Iron Garnet stripes
54 Sergey Samarin University of Western Australia
Spin-orbit interaction on surfaces by spin-polarized (e,2e) spectroscopy
55 Thomas Schefer University of Western Australia
Effect of Hydrogen on the FMR linewidth of thick Co/Pd bilayer systems
56 Toshiyuki Shima Tohoku Gakuin University
Effect of pseudo-diffusion layers on the magnetic properties for artificial Nd-Fe-B grid patterns
NO PRESENTER POSTER TITLE
57 Irene Suarez-Martinez Curtin University
Graphitization studies using an Atomic Absorption Spectrometer as an ultra-high temperature oven
58 Stuart Watt University of Western Australia
Impact of hydrogen gas on the inverse Spin Hall effect in Pd-Co bi-layer films
AIP - EDUCATION FOR PHYSICS & RELATED DISCIPLINES
59 Rahul Kumar Choudhary University of Western Australia
An analysis of high school students’ attitudes and understanding of Einsteinian physics using short and long interventions
60 Anthony Greaves Swinburne University
An electromagnetic and circuit theory concept inventory of undergraduate engineering students
61 Lorna Jarrett University of Wollongong
Public understanding of key scientific concepts underlying climate change, and suggested learning and teaching strategies to overcome misconceptions
62 Magdalena Kersting University of Oslo & University of Western Australia
How History and Philosophy of Science Can Inform Teaching and Learning of General Relativity in Upper Secondary School
63 Guillermo Munoz Matutano Macquarie University
Educational Toolbox for Photon Correlation Principles and Fundamentals in Quantum Optics
64 Jules Rankin University of Sydney
The Life of a Syllabus: Almost 20 years of HSC Physics.
65 Geoff Swan Edith Cowan University
Short courses for teachers
66 Graham Wild RMIT University
A Matlab based multiple choice marking system graded students’ work, email them a copy of their quiz with computer generated feedback, and provided question analytics to inform intervention and revision.
AIP - GEOPHYSICS, SOLAR, TERRESTRIAL & SPACE PHYSICS
67 Brett Carter RMIT University
The Effect of Plasma Density Variations on the Generalised Rayleigh Taylor Instability in the Equatorial Ionosphere
AIP - GRAVITATIONAL WAVES & RELATIVITY
68 Sebastian Murk Macquarie University
Properties of stress-energy tensor and metric close to the Schwarzschild radius
69 Michael Page University of Western Australia
Enhanced detection of high frequency gravitational waves using unstable optomechanical filters with low loss microresonators
AIP - INDUSTRIAL & APPLIED PHYSICS
70 Ludovic Rapp Australian National University
Evaluation of surface processing efficiency with powerful ultrashort pulse lasers for large-scale industrial applications
71 Jingchao Song University of Melbourne
Large area plasmonic colour pixels via Nanoimprint Lithography
72 Matthew van Breugel Macquarie University
Affordable Nano-scale Thermometry with Diamond
23rd Australian Institute of Physics Congress 2018 – HANDBOOK 55
NO PRESENTER POSTER TITLE
AIP - NUCLEAR & PARTICLE PHYSICS
73 David Dossett University of Melbourne
Automating calibration at the Belle II experiment
74 Greg Lane Australian National University
E6 transition in the decay of Fe-53m
75 Brendan McCormick Australian National University
Relative measurements of g(2+) in the stable even-even Ge and Se isotopes
76 Chandrima Sengupta Australian National University
Elastic Scattering and Reaction cross section of 8Li on heavy and medium mass targets
77 Ben Swinton-Bland Australian National University
Systematic Study of Quasifission in 48Ca-Induced Reactions
78 Anton Wallner Australian National University
Limits in Accelerator Mass Spectrometry for Astrophysical and Nuclear Applications
79 Matt Westlake University Of Wollongong
Characterization and investigations in to phonon dynamics of Silver doped Lanthanum Manganite nano particles for hypothermia treatment of cancer cells.
80 Scott Williams University of Melbourne
Networked cosmic muon detectors for outreach and cosmic muon background measurement
AIP - PLASMA PHYSICS
81 Snezhana I. Abarzhi University of Western Australia
Late-time evolution of Rayleigh-Taylor instability in a domain of a finite size
82 Snezhana I. Abarzhi University of Western Australia
Effect of noise on Rayleigh-Taylor mixing with space-dependent acceleration
83 Kavya Hemantha Rao Griffith University
Angle resolved X-ray emission spectroscopy of laser produced metal plasmas and alloys
84 Desmond Hill University of Western Australia
Effect of pressure fluctuations on Richtmyer-Meshkov coherent structures
85 Desmond Hill University of Western Australia
Dimensional crossover in Richtmyer-Meshkov unstable flows in the presence of pressure fluctuations
86 Vishnu Mangalath University of Western Australia
Coordinate-free Grad-Shafranov equation on a Riemannian manifold with Killing field
87 David Pfefferlé University of Western Australia
What may the experimental and numerical data tell us on properties of Rayleigh-Taylor interfacial mixing?
88 David Pfefferlé University of Western Australia
Non-planar elasticae as optimal curves for the magnetic axis of stellarators
AIP - QUANTUM INFORMATION, CONCEPTS & COHERENCE
89 Estelle Asmodelle ARC Centre for Quantum Computation Communication Technology - University of Queensland
Relativistic Bohmian Trajectories
NO PRESENTER POSTER TITLE
90 Leonardo Assis Morais University of Queensland
Transition edge sensor: photon-number resolving detectors
91 Travis Baker Griffith University
Beyond the Conventional Limit to the Coherence of a Laser
92 Ben Baragiola Centre for Quantum Computing & Communication Technology
Quantum trajectories for the joint state of a system and field
93 Philip Blocher Aarhus University - Department of Physics & Astronomy
Temporally non-local effects in optical detection
94 Kok-Wei Bong Griffith University
Strong unitary and overlap uncertainty relations: theory and experiment
95 Shakib Daryanoosh Macquarie University
Quantum master equations for entangled qubit environments
96 Marcus Doherty Australian National University
Optimisation of diamond quantum processors
97 Tim Evans University of Sydney
Methods in Matrix Product Operator Tomography
98 Florian Frank Institute of Quantum Optics, Ulm University
Closed-loop optimization of single spin control in room-temperature solids
99 Jemy Geordy EQUS & Macquarie University
Bayesian estimation of blinking in nano-diamond color centres
100 Kaumudibikash Goswami University of Queensland
Extracting information from depolarising channels using indefinite causal order
101 Glen Harris University of Queensland
Stable Levitation of Superfluid Helium; Optomechanics with Droplets
102 Sean Hodgman Australian National University
Bogoliubov-Cherenkov Radiation, Machine Learning and Quantum Depletion Experiments with Helium Bose-Einstein Condensates
103 Lewis Howard University of Queensland
Optimal Spatial Metrology
104 Michael Kewming University of Queensland
Ignorance of the whole does not imply ignorance of the parts: Qudit Random Access Codes in spatial modes of light
105 Ruvi Lecamwasam Australian National University
Analysis and feedback-control of a levitating mirror
106 Anthony Leung Australian National University
Storing single photons using gradient echo memory
107 Lucas Mensen RMIT University
Predicting successful error correction in a measurement-based quantum computation with continuous-variable cluster states
108 Gary Mooney University of Melbourne
Gate synthesis using higher orders of the Clifford hierarchy
109 Felix Pollock Monash University
Long-time dynamics from short-time tomography data for driven open quantum processes
23rd Australian Institute of Physics Congress 2018 – HANDBOOK56
NO PRESENTER POSTER TITLE
110 Nicholas Pritchard University of Western Australia
Cluster-Based Simulation of the Quantum Approximate Optimisation Algorithm
111 Sarath Raman Nair EQUS & Macquarie Unversity
Towards room-temperature lasing with NV centres in open fibre cavities
112 Sarath Raman Nair EQUS & Macquarie Unversity
On the theory of diamond Raman lasers with colour centres in the crystal
113 Rostyslav Savytskyy CQC2T, School of EE&T, University of New South Wales
Tuning the flip-flop qubit of a 31P donor in silicon
114 Jordan Scarabel Griffith University
Towards a Quantum Network with Trapped Ions and Waveguides
115 Oliver Stockdale University of Queensland
Modelling expanding vortex clusters in thin film superfluid helium
116 Ming Su University of Queensland
Asymmetric Quantum Interference Observed Using Photon-number-resolving Detectors
117 Run Yan Teh Swinburne University of Technology
Creation, storage and retrieval of an optomechanical cat
118 Sam Tonetto University of Melbourne
Sampling Boltzmann Distributions with Quantum Annealing
119 Blayney Walshe RMIT University
Fault-tolerant measurement-based quantum computing with impure continuous-variable cluster states
120 Prahlad Warszawski University of Sydney
Optomechanical quantum control of superfluid Helium vortices
121 Keyu Xia Nanjing University
Quantum memory and gates using a Lambda-type quantum emitter coupled to a chiral waveguide
123 Wei-wei Zhang The University Of Sydney
Identification quantum topological phases with neural networks deep learning
AIP - SYNCHROTRON SCIENCE, SCATTERING, MICROSCOPY, IMAGING
124 Dehong Yu Australian Nuclear Science & Technology Organisation
PELICAN – a Multi-Purpose Time-of-Flight Cold Neutron Spectrometer
AOS/ACOFT - BIOPHOTONICS
125 Steven Hinckley Edith Cowan University
Optical coherence tomography modelling incorporating absorption and scattering
126 Jaehwan Kwon Kyungbook University
Micro vibration measurement and surface vibration projection of latex samples using optical Doppler tomography system
127 Oeon Kwon Kyungpook National University
Real-time index regulating technique for direct wavenumber-linearization in spectral domain optical coherence tomography
128 Farah Qazi University of Melbourne
Non-invasive optical imaging of nematode eggs
NO PRESENTER POSTER TITLE
AOS/ACOFT - NONLINEAR OPTICS
129 Michelle Wang University of Sydney
Short-range surface plasmons for stimulated Brillouin scattering
AOS/ACOFT - OPTICAL DEVICES
130 Raymond Harrison RMIT University
Multi-photon evolution using waveguide adiabatic passage
131 Douglas Little Macquarie University
Quantum-Random Bit Generation using Raman-Laser Pulses in Diamond with Randomly-Oriented Linear Polarisations
132 Ben Sparkes University of Adelaide
High-transmission fibre ring resonator for spectral filtering of master oscillator power amplifiers
AOS/ACOFT - OPTICAL SENSING
133 Steven Hinckley Edith Cowan University
Determining the Displacement of Flexible Membranes using Fibre Bragg Gratings
134 Lu Peng University of Adelaide
Micron-scaled resolution distributed sensing using exposed core fibre
135 Paul Sibley Australian National University
Exploring the performance of Digitally Enhanced Interferometry for Optical Phased Arrays
136 Nonthanan Sitpathom Macquarie University
Shaping of microsphere arrays by plasma treatment for optical sensing
137 Lei Xu University of New South Wales
Hybrid Metasurface Based Polarization Independent Tunable Perfect Absorber and Plasmonic Sensor
AOS/ACOFT - OPTICS, PHOTONICS & LASER PHYSICS
138 Deeksha Beniwal University of Adelaide
Mid-IR fibre lasers for wavefront correction in advanced gravitational wave detectors.
139 Le Gao RMIT University School of Science LAIN Group
Development of optically active solid medium for high-capacity optical data storage
141 Isaac Lenton University of Queensland
OTSLM: A toolbox for production of flexible structured light
142 David McAfee University of Adelaide
An electronically controlled mode-locked thulium all-fibre laser at 1.990µm
143 Jillian Moffatt University Of Adelaide
Energy transfer upconversion parameter for 4I13/2 measured in erbium doped ZBLAN fibre
144 Kerry Mudge Defence Science Technology Group
Scintillation Mitigation Strategies for Asymmetric Free Space Laser Communications
145 Kerry Mudge Defence Science Technology Group
Analysis of Atmospheric Turbulence Effects for Laser Satellite Communications
146 Sascha Schediwy University of Western Australia
Development of an Optical Phased Array to Power Interstellar Travel
23rd Australian Institute of Physics Congress 2018 – HANDBOOK 57
NO PRESENTER POSTER TITLE
147 Mandip Singh Indian Institute of Science Education & Research, Mohali
Three-dimensional imaging of a pattern localized in a phase space
148 Lei Xu University of New South Wales
Highly-efficient normal second-harmonic generation from doubly-resonant AlGaAs nanoantennas
AOS/ACOFT - QUANTUM OPTICS
149 Paul Altin Australian National University
Controlling the squeezing ellipse angle at a 2 micrometer wavelength
150 W Y Sarah Lau University of Queensland
Hectometer Revivals of Quantum Interference
151 Yasmine Sfendla University of Queensland
Proposal for optomechanical single-vortex detection in 2D superfluids
COMMAD - ELECTRON DEVICES & SYSTEMS
152 Weijun Fan Nanyang Technological University
Tensile Strain Effect on Band Structure of Ge and Ge Quantum Well
153 Jeremy Gillbanks University of Western Australia
Reference Electrode-Free pH Sensing at Temperatures above 300 K Using AlGaN/GaN Transistor-Based Chemical Sensors
154 Georgina Carson University of New South Wales
An atomically precise 4-qubit processor using donor spins in silicon
155 Shahbaz Khan University of Western Australia
Response enhancement of a magnetic-film based hydrogen gas sensor using size reduction to microchip dimensions
156 Peter Metaxas University of Western Australia
Spin torque nano-oscillators for electronic, frequency-based, magnetic biosensing
157 Michal Zawierta University of Western Australia
AFM integration with on-chip optical interferometric read-out
COMMAD - OPTOELECTRONICS/PHOTONIC DEVICES & SYSTEMS
158 Minh Nguyen University of Technology Sydney
Nanoassembly of hexagonal boron nitride and gold nanospheres
159 Inseok Yang Australian National University
Single axial n-i-p junction InP nanowires for high performance solar cells
COMMAD - TECHNOLOGIES & THEORIES FOR MICROELECTRONICS, OPTOELECTRONICS & PHOTONICS
160 Yaman Afandi University of Western Australia
Study of Porosity Gradient in Released Porous Silicon Microstructures
161 Gilberto Umana Mebreno Microelectronics Research Group, The University Of Western Australia
Modelling of damping characteristics in silicon-gold bilayer cantilevers
NO PRESENTER POSTER TITLE
162 Gurpreet Singh Gill University of Western Australia
Modelling and Fabrication of Anti-Stiction Features for Electrostatically Actuated Microsystems
164 Praveen Kumar Revuri University of Western Australia
Si and SiO2 thin films deposited by ICPCVD at low temperature and high deposition rate for MEMS applications
165 Tarun Sanders University of Western Australia
Investigation of a novel method for the fabrication of larger area imaging fibre bundles with greater number of pixels and reduced dead space
166 Pritam Sharma University of Western Australia
Engineering porous silicon thin films to obtain high TCR and low 1/f noise for application in thermal detectors.
167 Jorge Silva Castillo University of Western Australia
Method for optical modelling of non-uniform and non-parallel multi-thin film MEMS optical filters and mirrors
168 Hoe Tan Australian National University
Wafer-scale growth of hexagonal boron nitride on sapphire substrates using metal organic vapour phase epitaxy
269 Jianan Wang University of Western Australia
A Raman spectroscopy study on the surface structural properties of gallium nitride-based materials
FOCUS SESSION - 50 YEARS OF BICONTINUOUS CUBIC PHASES
170 Benjamin Cumming RMIT University
Impact of cubic symmetry on the optical properties of gyroid networks
FOCUS SESSION - OPTICAL & QUANTUM BIO-SENSING
171 Michael Barson Australian National University
Quantum sensing of Neuronal signals
172 Larnii Booth University of Queensland
Quantum limited plasmonic sensing of motor molecule dynamics
173 Pawan Kumar Abbe Center of Photonics, Friedrich-Schiller-Universität Jena
Mid-infrared sensing by induced coherence in a single nonlinear waveguide
174 Cyril Laplane Macquarie University
A new tool for optical manipulation of nano-object based on atomic forces
175 Daniel McCloskey University of Melbourne
Enhancement of Fluorescence from Dense Ensembles of Near-Surface Nitrogen-Vacancy Centres for Biological Sensing
176 Chris Perrella University of Adelaide
Rapid optical measurement of 13CO2 and 12CO2 number density
177 David Simpson University of Melbourne
Diamond based quantum sensing and imaging
178 David Simpson University of Melbourne
Nanoscale intracellular thermometry using diamond quantum probes
23rd Australian Institute of Physics Congress 2018 – HANDBOOK58
presenting authors
AUTHOR AFFILIATION
Abarzhi, Snezhana I. University of Western Australia
Abdurakhmanov, Ilkhom Curtin University
Abrahao, Raphael University of Queensland
Ackley, Kendall Monash University
Ako, Rajour RMIT University
Alladustov, Shukhrat Curtin University
Altin, Paul Australian National University
Aminzadeh, Alaleh La Trobe University
Andersen, Mikkel F University of Otago
Anderson, Malcolm Universiti Brunei Darussalam
Andersson, Gunther Flinders University
Angstmann, Elizabeth University of New South Wales
Antoszewski, Jarek University of Western Australia
Asadpoor Darvish, Amir ARC Centre of Excellence in Exciton Science
Atakaramians, Shakhik University of New South Wales
Babic, Bakir Department of Industry, Innovation and Science
Baikie, Iain KP Technology
Baker, Christopher University of Queensland
Baker, Mark University of Queensland
Balazs, Csaba Monash University
Banerjee, Kaushik Australian National University
Baragiola, Ben ARC Centre for Quantum Computation and Communication Technology
Barberio, Elisabetta University of Melbourne
Barson, Michael Australian National University
Bartlett, Stephen University of Sydney
Bartolo, Tommy RMIT University
Batchelor, Murray Australian National University
Bekker, Christiaan University of Queensland
Beniwal, Deeksha University of Adelaide
AUTHOR AFFILIATION
Bennet, Francis Australian National University
Bennett, James ARC Centre of Excellence for Engineered Quantum Systems
Berengut, Julian University of New South Wales
Berry, Dominic Macquarie University
Bezzina, Lauren Australian National University
Bhansali, Aesha University of Sydney
Bickerton, Oliver University of Sydney
Bigaran, Innes University of Melbourne
Bignall, Hayley CSIRO
Bignell, Lindsey Australian National University
Bioletti, Gabriel Victoria University of Wellington
Bioletti, Gabriel Victoria University of Wellington
Bishop, James University of Technology Sydney
Blackwell, Boyd Australian National University Research School of Physical Sciences and Engineering
Blair, Carl Caltech
Blair, David University of Western Australia
Blake, Samuel University of Sydney
Booth, Jamie RMIT University
Bossilkov, Vladimir University of Western Australia
Botzem, Tim University of New South Wales
Bourhill, Jeremy University of Western Australia
Bradby, Jodie Australian National University
Bradshaw, Mark Australian National University
Bray, Alexander Australian National University
Brennen, Gavin Macquarie University
Broer, Wijnand Nanyang Technological University
AUTHOR AFFILIATION
Budden, Jessica University of New South Wales
Cadusch, Jasper University of Melbourne
Cao, Huy Tuong University of Adelaide
Carrascosa, Eduardo University of Melbourne
Carter, Brett RMIT University
Casacio, Catxere University of Queensland
Castelli, Marina Monash University
Catinella, Barbara University of Western Australia
Causer, Grace University of Wollongong
Cavalcanti, Eric Griffith University
Cha, Jihun University of Queensland
Chantler, Christopher University of Melbourne
Chantler, Christopher University of Melbourne
Chen, Xu University of Western Australia
Cheng, Zhangkai University of Sydney
Chhetri, Rajan International Centre for Radio Astronomy Research
Chiew, Mitchell University of Western Australia
Choudhary, Rahul Kumar
University of Western Australia
Chubb, Chris University of Sydney
Cocks, Danny Australian National University
Colas, David University of Queensland
Cook, Peter Flinders University
Coombes, Ben Australian National University
Copeland, Michael Australian National University
Costa, Fabio University of Queensland
Cumming, Benjamin RMIT University
Cumming, Benjamin RMIT University
Cyster, Martin RMIT University
Dalton, Bryan Swinburne University of Technology
23rd Australian Institute of Physics Congress 2018 – HANDBOOK 59
AUTHOR AFFILIATION
Dasgupta, Mahananda Australian National University
Daszuta, Boris University of Otago
Dawes, Judith Macquarie University
De Lacy, Kooper University of Western Australia
De Tomas, Carla Curtin University
Dean, Jonathan University of Melbourne
Dehdashti, Nima University of Western Australia
Delaney, Gary CSIRO
Deng, Guochu Australian Nuclear Science and Technology Organisation
Devitt, Simon University Of Technology, Sydney
Doherty, Marcus Australian National University
Dotera, Tomonari Kindai University
Dowie, Jackson Australian National University
Duong, Ngoc My Hanh University of Technology Sydney
Ebert, Martin University of Western Australia
Ehrig, Sebastian Max Planck Institute of Colloids and Interfaces
Elliman, Robert Australian National University
Elliman, Robert Australian National University
Farrant, David CSIRO
Favre-Bulle, Itia University of Queensland
Favre-Bulle, Itia University of Queensland
Fifield, Keith Australian National University
Firth, Daniel Bioimaging Research and Innovation for Translational Engineering
Fleming, Simon University of Sydney
Fleming, Simon University of Sydney
Flower, Graeme University of Western Australia
Foot, Robert University of Sydney
Galloway, Duncan Monash University
AUTHOR AFFILIATION
Gambell, Adam University of Adelaide
Gardiner, Bruce Murdoch University
Geddes, Amy University of New South Wales
Ghafari, Farzad Griffith University
Giarmatzi, Christina University of Queensland
Gibson, Lachlan University of Queensland
Gluschke, Jan University of New South Wales
Gluschke, Jan University of New South Wales
Golde, Jonas TU Dresden
Gomez, Daniel RMIT University
Gopalakrishnan, Dhaneesh Kumar
Monash University
Gorman, Sam ARC Centre of Excellence for Quantum Computation and Communication Technology
Goryachev, Maxim University of Western Australia
Gozzard, David Australian National University
Greybush, Nicholas U.S. Naval Research Laboratory
Gu, Mile Nanyang Technological University
Guan, Xiwen Chinese Academy of Sciences Wuhan Physics and Mathematics Institute
Gurusamy, Jega Thisan University of Western Australia
Hain, Tobias Murdoch University
Hannaford, Peter Swinburne University of Technology
Haram, Nida Griffith University
Harper, Robin University of Sydney
Harris, Rob University of Queensland
He, Xin (Eric) University of Queensland
Hepburn, Matt Harry Perkins Institute of Medical Research
Herrera Benzaquen, Ivan
Swinburne University of Technology
Hertzberg, Mark Tufts University
AUTHOR AFFILIATION
Higginbottom, Daniel Australian National University
Hill, Desmond University of Western Australia
Hinckley, Steven Edith Cowan University
Hinckley, Steven Edith Cowan University
Hitchman, Sam AgResearch
Hodgman, Sean Australian National University
Hodgman, Sean Australian National University
Hogg, Mark University of New South Wales
Hoinka, Sascha Swinburne University of Technology
Hole, Matthew Australian National University
Hope, Joe Australian National University
Hora, Heinrich University of New South Wales
Hosain, Md Akhter University of Western Australia
Hosseinidehaj, Nedasadat
University of Queensland
Howell, Eric University of Western Australia
Huang, Lujun University of New South Wales
Huang, Wister (Wei) University of New South Wales
Huebner, Moritz Monash University
Huf, Peter Deakin University
Hui, Hui Swinburne University of Technology
Hurley-Walker, Natasha International Centre for Radio Astronomy Research
Illingworth, Garth UC Santa Cruz
Ironside, Charlie Curtin University
Jaberian Hamedan, Vahid
University of Western Australia
Jarrett, Lorna University of Wollongong
Jay, Gareth University of Western Australia
Joseph, Ria Rushin Swinburne University of Technology
Kane, Deb Macquarie University
23rd Australian Institute of Physics Congress 2018 – HANDBOOK60
AUTHOR AFFILIATION
Kane, Deb Macquarie University
Karouta, Fouad Australian National University
Keating, Adrian University of Western Australia
Keith, Daniel ARC Centre for Quantum Computation and Communication Technology
Kersting, Magdalena University of Western Australia
Kheruntsyan, Karen University of Queensland
Kish, Sebastian University of Queensland
Klymenko, Mykhailo RMIT University
Kobakhidze, Archil University of Sydney
Koll, Dominik Australian National University
Korzekwa, Kamil University of Sydney
Kozlov, Alexander University of Melbourne
Kranz, Ludwik ARC Centre for Quantum Computation and Communication Technology
Krasnokutska, Inna RMIT University
Krohn, Jo-Frederik University of Melbourne
Kuncic, Zdenka University of Sydney
Lagos, Claudia University of Western Australia
Laird, Emma Monash University
Lamon, Simone RMIT University
Lane, Greg Australian National University
Langford, Nathan University of Technology Sydney
Laverick, Kiarn Griffith University
Lavin Varela, Sebastian Australian National University
Lazendic-Galloway, Jasmina
Monash University
Lebedev, Petr University of Sydney
Lenton, Isaac University of Queensland
Levinsen, Jesper Monash University
Li, Beibei Institute of Physics Chinese Academy of Sciences
Li, Jiawen University of Adelaide
Li, Jiawen University of Adelaide
AUTHOR AFFILIATION
Li, Xuegang University of Adelaide
Light, Philip University of Adelaide
Light, Philip University of Adelaide
Little, Douglas Macquarie University
Litvinyuk, Igor Griffith University
Liu, Xia-Ji Swinburne University of Technology
Lobino, Mirko Griffith University
Lund, Austin University of Queensland
Lung, Shaun Australian National University
Ma, Jinyong Australian National University
Madsen, Lars University of Queensland
Madzik, Mateusz University of New South Wales
Mahmood, Ibtihal University of Melbourne
Malajczuk, Christopher Curtin University
Malik, Umairia University of New South Wales
Marsh, Samuel University of Western Australia
Mauranyapin, Nicolas University of Queensland
McAllister, Benjamin University of Western Australia
McCamey, Dane University of New South Wales
McCann, Joshua University of Western Australia
McCoey, Julia University of Melbourne
McCulloch, Andrew University of Melbourne
McGloin, David University of Technology Sydney
Mckinley, Benjamin Curtin University
McMahon, Nathan Macquarie University
McManus, David Australian National University
Meadors, Grant Monash University
Melville, Graeme University of New South Wales
Mendelson, Noah University of Technology Sydney
Meng, Chao University of Queensland
Meng, Jiajun University of Melbourne
AUTHOR AFFILIATION
Metaxas, Peter University of Western Australia
Miller-Jones, James International Centre for Radio Astronomy Research
Miroshnichenko, Andrey University of New South Wales
Mitchell, AJ Australian National University
Mitchell, Emma CSIRO
Morgan, John Curtin University
Mourik, Vincent University of New South Wales
Mulkerin, Brendan Swinburne University of Technology
Munoz Matutano, Guillermo
Macquarie University
Mustary, Mumta Hena Griffith University
Mutch, Simon University of Melbourne
Neely, Tyler University of Queensland
Neshev, Dragomir Australian National University
Neshev, Dragomir Australian National University
Ngampruetikorn, Vudtiwat
Northwestern University
Nguyen, Quan Griffith University
Nieminen, Timo University of Queensland
Nieminen, Timo University of Queensland
Nuti, Francesco University of Melbourne
Pan, Wenwu University of Western Australia
Panchenko, Evgeniy University of Melbourne
Pantaleoni, Giacomo RMIT University
Panther, Fiona Helen Australian National University
Parish, Meera Monash University
Paul, Karun Australian National University
Pavetich, Stefan Australian National University
Peace, Daniel Griffith University
Peng, Jingyang RMIT University
Perrella, Chris University of Adelaide
Perunicic, Viktor University of Melbourne
23rd Australian Institute of Physics Congress 2018 – HANDBOOK 61
AUTHOR AFFILIATION
Petersen, Charlotte University of Innsbruck
Phan, Hoang-Phuong Griffith University
Piecek, Wiktor Military University of Technology
Pollock, Felix Monash University
Pumarol Crestar, Manny Monash University
Quach, James University of Adelaide
Quinn, Peter University of Western Australia
Quinton, Jamie Flinders University
Quinton, Jamie Flinders University
Rachel, Stephan University of Melbourne
Radhanpura, Krunal CSIRO
Rahmani, Mohsen Australian National University
Raj, Vidur Australian National University
Ralph, Tarquin Australian National University
Rapp, Ludovic Australian National University
Raszewski, Zbigniew Military University of Technology
Reece, Peter University of New South Wales
Regan, Blake University of Technology Sydney
Reichardt, Christian University of Melbourne
Reineck, Philipp RMIT University
Reineck, Philipp RMIT University
Roberts, Benjamin Paris Observatory
Roberts, Benjamin Paris Observatory
Rogers, Lachlan Macquarie University
Rogers, Lachlan Macquarie University
Rule, Kirrily Australian Nuclear Science and Technology Organisation
Rule, Kirrily Australian Nuclear Science and Technology Organisation
Sachkou, Yauhen University of Queensland
Sanders, Yuval Macquarie University
Sanderson, Rowan University of Western Australia
Saranathan, Vinodkumar
Yale NUS College
AUTHOR AFFILIATION
Savytskyi, Mykhailo University of New South Wales
Scarlett, Liam Curtin University
Schediwy, Sascha University of Western Australia
Schediwy, Sascha University of Western Australia
Schmidt, Mikolaj Macquarie University
Schmitt, Simon University of Ulm
Schön, Yannick Karlsruhe Institute of Technology
Schönhöfer, Philipp Murdoch University
Schroeder-Turk, Gerd Murdoch University
Schuyt, Joseph Victoria University of Wellington
Scott, John University of Technology Sydney
Scutti, Federico University of Melbourne
Sevior, Martin University of Melbourne
Seymour, Nicholas International Centre for Radio Astronomy Research
Sharma, Abhishek University of Adelaide
Shi, Zheyu Monash University
Simenel, Cedric Australian National University
Simpson, Edward Australian National University
Simula, Tapio Swinburne University of Technology
Slussarenko, Sergei Griffith University
Smith, Rory Monash University
Smith, Thomas University of Sydney
Solntsev, Alexander University of Technology Sydney
Spagnoli, Dino University of Western Australia
Sparkes, Ben University of Adelaide
Spollard, James Australian National University
Stace, Tom University of Queensland
Stace, Tom University of Queensland
Stacey, Alastair University of Melbourne
Stadnik, Yevgeny Johannes Gutenberg University of Mainz
AUTHOR AFFILIATION
Stavrevski, Daniel ARC Centre of Excellence for Nanoscale BioPhotonics
Streed, Erik Griffith University
Suarez-Martinez, Irene Curtin University
Sullivan, Hugh RMIT University
Sun, Qiang University of Melbourne
Sun, Xiao University of Western Australia
Szigeti, Stuart Australian National University
Tam, Kevin University of Sydney
Taylor, Michael University of Queensland
Taylor, Michael University of Queensland
Tee, Bryan Pi Ern Australian National University
Terno, Daniel Macquarie University
Tetienne, Jean-Philippe University of Melbourne
Thompson, Jayne National University of Singapore
Thomson, Catriona University of Western Australia
Thrane, Eric Monash University
Thurgate, Stephen Murdoch University
Tischler, Nora Griffith University
Titov, Oleg Geoscience Australia
Tobar, Michael University of Western Australia
Tonekaboni, Behnam University of Queensland
Tranter, Aaron Australian National University
Tretiakov, Oleg University of New South Wales
Tripathi, Dhirendra University of Western Australia
Tserkis, Spyros University of Queensland
Twamley, Jason Macquarie University
Twamley, Jason Macquarie University
Uhrig, David Victoria University of Wellington
Ungar, Goran University of Sheffield
Ungaro, Francesca University of Melbourne
Usman, Muhammad University of Melbourne
23rd Australian Institute of Physics Congress 2018 – HANDBOOK62
AUTHOR AFFILIATION
Utamuratov, Ravshanbek
Curtin University
Vaccaro, Joan Griffith University
van Heijningen, Joris University of Western Australia
Varvell, Kevin University of Sydney
Vidal, Xavier Macquarie University
Vogl, Tobias Australian National University
Voisin, Benoit University of New South Wales
Wallner, Anton Australian National University
Wang, Jia Swinburne University of Technology
Wang, Naiyin Australian National University
Warren-Smith, Stephen University of Adelaide
Watkins, Craig Informative Technology Innovations
Wayth, Randall Curtin University
Webb, James University of Melbourne
Webster, Paul University of Sydney
Wegener, Margaret University of Queensland
Wilkinson, Samuel RMIT University
Wilts, Bodo University of Fribourg
Wittmann, René University of Düsseldorf
Wood, Alexander University of Melbourne
Woolley, Matt University of New South Wales
Worboys, Josef RMIT University
Wu, Shengling University of Sydney
Xia, Keyu Nanjing University
Xie, Liushun University of Adelaide
Xu, Lei University of New South Wales
Yang, Inseok Australian National University
Yap, Min Jet Australian National University
Yap, Min Jet Australian National University
Yokoyama, Masayuki National Institute for Fusion Science
Zakaria, Azwa University of Queensland
Zangeneh Kamali, Khosro
Australian National University
AUTHOR AFFILIATION
Zhang, Shu University of Queensland
Zhang, Wei-wei University of Sydney
Zhang, Wen Qi University of South Australia
Zhang, Jue University of Western Australia
Zhao, Chunnong University of Western Australia
Zhao, Jiangbo Leibniz Institute of Photonic Technology
Zhao, Zijun University of Sydney
Zhu, Xingjiang Monash University
Zhu, Xingjiang Monash University
Zych, Magdalena University of Queensland
Abarzhi, Snezhana I. University of Western Australia
Abasahl, Banafsheh Imec
Aharonovich, Igor University of Technology Sydney
Ares, Natalia University of Oxford
Aspelmeyer, Markus
Aspelmeyer, Markus
Bailes, Matthew Swinburne University of Technology
Ballato, John Clemson University
Barberio, Elisabetta University of Melbourne
Bell, Nicole University of Melbourne
Bell, Nicole University of Melbourne
Bertram, John Monash University
Bezak, Eva University of South Australia
Blakie, Blair University of Otago
Bowen, Warwick University of Queensland
Bray, Igor Curtin University
Burde, Jan-Philipp University of Frankfurt
Cairney, Julie University of Sydney
Cense, Barry University of Western Australia
Chen, Zhigang Nankai University
Conn, Charlotte RMIT University
Coppersmith, Susan University of Wisconsin-Madison
Corr, Cormac Australian National University
AUTHOR AFFILIATION
Crozier, Kenneth University of Melbourne
Cushman, Priscilla University of Minnesota
Davis, Matthew University of Queensland
Davis, Tamara University of Queensland
Deplazes, Evelyne Curtin University
Dicker, Jason Department of Education
Du, Jiangfeng University of Science and Technology of China
Ebendorff-Heidepriem, Heike
University of Adelaide
Eilenberger, Falk University of Jena
Ekins-Daukes, Ned University of New South Wales
Fisher, Matthew UC Santa Barbara
Fortier, Tara National Institute of Standards and Technology
Funston, Alison Monash University
Gao, Weibo Nanyang Technological University
Garrett, Richard Australian Nuclear Science and Technology Organisation
Gibson, Brant RMIT University
Giger, Maryellen University of Chicago
Ginges, Jacinda University of Queensland
Grubisic-Cabo, Antonija Monash University
Helmerson, Kristian Monash University
Hinde, Elizabeth University of Melbourne
Hollenberg, Lloyd University of Melbourne
Hyde, Stephen Australian National University
Iles, Gail RMIT University
Jackson, Paul University of Adelaide
Jagadish, Chennupati Australian National University
Johnston-Hollitt, Melanie
Curtin University
Joyce, Hannah University of Cambridge
Ju, Li University of Western Australia
Karakas, Amanda Monash University
23rd Australian Institute of Physics Congress 2018 – HANDBOOK 63
AUTHOR AFFILIATION
Kivshar, Yuri Australian National University
Lee, Woei Ming (Steve) Australian National University
Levy, Jeremy University of Pittsburgh
Lewis, Roger University of Wollongong
Li, Wenhui National University of Singapore
Luiten, Andre University of Adelaide
Marquardt, Florian Max Planck Institute for the Science of Light
Martin, Andy University of Melbourne
Mather, Melissa University of Nottingham
McFerran, John University of Western Australia
Miroshnichenko, Andrey University of New South Wales
Moelmer, Klaus Aarhus University
Munro, William NTT Basic Research Laboratories
Murphy, Tony CSIRO
Nakamura, Yasunobu The University of Tokyo
Nemoto, Kae National Institute of Informatics
O'Brien, Jeremy University of Bristol
Paul, Michael The Hebrew University
Peng, Xinhua University of Science and Technology of China
Pfefferlé, David University of Western Australia
Pryde, Geoff Griffith University
Qu, Zhisong Australian National University
Quinn, Peter University of Western Australia
Rahmani, Mohsen Australian National University
Reid, Margaret Swinburne University of Technology
Reineck, Philipp RMIT University
Roberts, Ann University of Melbourne
Robins, Nick Australian National University
Rowell, Gavin University of Adelaide
Rubinsztein-Dunlop, Halina
University of Queensland
Sadler, Elaine University of Sydney
AUTHOR AFFILIATION
Sanders, Barry University of Calgary
Scholten, Sarah University of Adelaide
Shannon, Ryan Swinburne University of Technology
Shi, Yuejiang Seoul National University
Simpson, David University of Melbourne
Simpson, Cather University of Auckland
Singh, Chandralekha University of Pittsburgh
Stuchbery, Andrew Australian National University
Stumpf, Henning University of Erlangen–Nuremberg
Subrahmanyan, Ravi Raman Research Institute
Suchowerska, Natalka University of Sydney
Sushkov, Oleg University of New South Wales
Suter, Melissa Massachusetts General Hospital and Harvard Medical School
Suzuki, Chihiro National Institute for Fusion Science
Terno, Daniel Macquarie University
Thomas, Anthony University of Adelaide
Ting, David NASA Jet Propulsion Laboratory
Urquijo, Phillip University of Melbourne
Villiger, Martin Massachusetts General Hospital
Walmsley, Ian University of Oxford
Walther, Julia TU Dresden
Walus, Konrad University of British Columbia
White, Andrew University of Queensland
Wolf, Peter Paris Observatory
Yang, Shu Zhejiang University
Yuan, Gangcheng University of Melbourne
Zhao, Jie Australian National University
Singh, Chandralekha University of Pittsburgh
Wiescher, Michael University of Notre Dame
Illingworth, Garth UC Santa Cruz
Krauss, Thomas University of York
Odom, Teri Northwestern University
AUTHOR AFFILIATION
Padilla, Willie Duke University
Pan, Jian-Wei University of Science and Technology of China
Ritsch-Marte, Monika Medical University of Innsbruck
Scott, Susan Australian National University
Weiss, Rainer Massachusetts Institute of Technology
Yeomans, Julia University of Oxford
Bell, Thomas University of Queensland
Garraway, Barry University of Sussex
Hall, Liam University of Melbourne
Liu, Junliang University of Western Australia
Neil, Benjamin University of Western Australia
Ng, King Lun Swinburne University of Technology
Savage, Jeremy Curtin University
Wang, Jianan University of Western Australia