Welcome to the XXVIII International Conference onNeutrino Physics and Astrophysics (NEUTRINO 2018) in

HeidelbergThe biennial NEUTRINO conference focuses on the current status of neutrino

physics, its interplay with astronomy and cosmology and the future prospects of these�elds. The 2018 edition is organised by the Max-Planck-Institut für Kernphysik andthe Karlsruhe Institute of Technology.

CommitteesInternational Advisory International Neutrino Local OrganisingCommittee Commission CommitteeA.S. Barabash J. Adams E. AkhmedovL. Baudis S. Bludman A. BerneiserJ.F. Beacom T. Bowles C. BuckS.J. Brice A. Dar G. Drexlin (co-chair)J. Cao G. Feldman K. EitelP. Coyle E. Fiorini K. FischerS. Davidson F. Halzen M. Lindner (chair)A. Dighe C. Jarlskog T. Marrodán UndagoitiaS. Dodelson E. Kearns W. RodejohannA.D. Dolgov T. Kitagaki S. SchoppmannY. Farzan K. Kleinknecht T. Schwetz-MangoldM. Goodman T. Kobayashi H. SimgenG. Gratta J.G. Learned A.Y. SmirnovT. Hambye K. Long M. SteidlY. Hayato W. Louis K. ValeriusS.-B. Kim A.B. McDonaldY. Kuno M. NakayaM. Mezzetto V. PalladinoA. Pilaftsis S. Parke (chair)G.G. Ra�elt S. PascoliM.C. Sanchez H. PietschmannK. Scholberg M. RoosS.-H. Seo N. SchmitzN.J.T. Smith J. SchnepsH. Tanaka Y. SuzukiL. Verde F. VannucciF. Vissani D. VignaudY. Wang F. von FeilitzschT.J. WeilerC. WeinheimerJ.F. WilkersonY.Y.Y. WongR. Zukanovich Funchal

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Contents

Conference Venue 4

Conference Programme 5Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5Posters and Exhibitors . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12Social Events . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 23

Practical Information 26

Sponsors and Exhibitions 29

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ConferenceVenue

The whole conference (registration, welcome reception, talks, poster sessions, banquet,co�ee breaks) takes place in the Kongresshaus (Stadthalle) of Heidelberg.

Plenary talks take place in the auditorium (Großer Saal). Seats are located on theground �oor and the �rst �oor. Poster sessions and the industry exhibit are held onthe �rst �oor. The registration desk, poster drop-o�, an ATM and access to the carpark P8 is located in the foyer on the ground �oor. The conference o�ce is locatedon the ground �oor next to the auditorium. Co�ee breaks take place on both sides ofthe auditorium and on each level.

ConferenceProgramme

OverviewTimes are approximate, see the detailed programme on the next pages.

Monday Tuesday Wednesday Thursday Friday Saturday

8:00

9:00

10:30

11:00

12:30

14:00

15:30

16:00

17:00

18:00

Registration

OpeningSession /

AcceleratorNeutrinos 1

AcceleratorNeutrinos 2

AcceleratorNeutrinos 3

AcceleratorNeutrinos4 / New

DetectionTechniques

PosterFinals /Poster

Session 1

ReactorNeutrinos 1

ReactorNeutrinos2 / Atmo-spheric

Neutrinos

SolarNeutrinos

Phenomeno-logy and

TheoreticalInterpret-

ations

PublicLecture

DoubleBeta

Decay 1

DoubleBeta

Decay 2

NeutrinoAstro-

nomy 1

NeutrinoAstro-

nomy 2

PosterFinals 2/ Poster

Session 2

CoherentNeutrinoScattering

LaboratoryNeutrinoMass De-

termination

Excursions

ConferenceBanquet

Theory

SterileNeutrinosand Inter-

pretations 1

SterileNeutrinosand Inter-

pretations 2

SterileNeutrinosand Inter-pretations3 / Neu-

trinos andCosmology

SupernovaNeutrinos

/ Grav-itationalWaves

GravitationalWaves/ Con-

nectionsto DM

ClosingSession

Co�eeBreak

Co�eeBreak

Co�eeBreak

Co�eeBreak

Co�eeBreak

Co�eeBreak

Co�eeBreak

Co�eeBreak

Co�eeBreak

Co�eeBreak

LunchBreak

LunchBreak

LunchBreak

LunchBreak

LunchBreak

Poster sessions end at 20h00, the welcome reception on Sunday lasts from 16h00 till21h00.

Monday, 4 June09h00 Session 1 : Opening Session/Accelerator Neutrinos 1

Chair: J. Schneps10 Welcome

Manfred Lindner (Max-Planck-Institut für Kernphysik)35+5 Opening Talk

Eligio Lisi (INFN, Bari)25+5 T2K Status, Results, and Plans

Morgan Wascko (Imperial College)25+5 NOvA

Mayly Sanchez (Iowa State University)10h50 Co�ee break11h20 Session 2 : Accelerator Neutrinos 2

Chair: A. de Roeck17+3 Recent Results from MINOS and MINOS+

Adam Aurisano (University of Cincinnati)25+5 DUNE: Status and Science

Elizabeth Worcester (Brookhaven National Laboratory)25+5 Hyper-Kamiokande

Masato Shiozawa (University of Tokyo/ICRR)12h40 Lunch break14h15 Session 3 : Accelerator Neutrinos 3

Chair: S. Wojcicki25+5 Other future Accelerator Projects

Mauro Mezzetto (INFN Padova)17+3 Hadron Production Measurements for Long-Baseline Neutrino Beams

Alysia Marino (University of Colorado)17+3 MINERvA: Illuminating the Interaction ofNeutrinoswithBoundNucleons

in the Nuclear EnvironmentDan Ruterbories (University of Rochester)

17+3 New Neutrino Cross-Section Measurements in T2KFederico Sánchez (IFAE)

15h45 Co�ee break16h15 Session 4 : Accelerator Neutrinos 4/New Detection Techniques

Chair: S. Ragazzi21+4 Neutrino-Nucleus Interactions and Long-Baseline Experiments

Ulrich Mosel (Giessen University)21+4 New Detection Techniques: Scintillator Detector for Neutrino Physics

Michael Wurm (JGU Mainz)17h05 Session 5 : Poster Prize Competition: Monday Finals30 Poster Finals Monday18h00 Poster Session 1

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Tuesday, 5 June09h00 Session 6 : Reactor Neutrinos 1

Chair: K. Scholberg21+4 Status of Reactor Antineutrino Flux Predictions

Anna Hayes (LANL)25+5 Latest Results from Daya Bay

Juan Pedro Ochoa-Ricoux (Ponti�cia Universidad Católica de Chile)17+3 New Results from the Double Chooz Experiment

Christian Buck (Max-Planck-Institut für Kernphysik)17+3 Recent Results from RENO

Intae Yu (Sungkyunkwan University)10h35 Co�ee break11h05 Session 7 : Reactor Neutrinos 2/Atmospheric Neutrinos

Chair: D. Sinclair21+4 Status and Prospects of the JUNO Experiment

Bjoern Wonsak (University of Hamburg)21+4 Atmospheric Neutrino Results from Super-Kamiokande

Yoshinari Hayato (ICRR, Univ. of Tokyo)30+5 Latest Results from IceCube and ANTARES

Tyce DeYoung (Michigan State University)12h30 Lunch break14h00 Session 8 : Solar Neutrinos

Chair: T. Kirsten21+4 Superkamiokande (solar)

Motoyasu Ikeda (ICRR, Univ. of Tokyo)21+4 Solar Neutrinos from the pp-chain and other Results of Borexino

Oleg Smirnov (JINR Dubna)21+4 The Future of Solar Neutrino Physics

Shaomin Chen (Tsinghua University, Beijing)21+4 Solar Models and Neutrinos

Ilidio Lopes (IST, Universidade de Lisboa)15h40 Co�ee break16h10 Session 9 : Phenomenology and Theoretical Interpretations

Chair: S. Petcov25+5 The Global Three-Neutrino Picture before DUNE

Mariam Tortola (IFIC, Valencia)21+4 Theories of Neutrino Masses

Lisa Everett (University of Wisconsin)17h45 Admission to Public Lecture18h00 Public Lecture60 Physics Show

Stella Nova Entertainment60 Neutrinos and You: What are they and why should you care?

Arthur B. McDonald (Queen’s University, Kingston, Canada)

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Wednesday, 6 June09h00 Session 10 : Double Beta Decay 1

Chair: E. Fiorini17+3 Neutrinoless Double Beta Decay with EXO-200 and nEXO

Giorgio Gratta (Stanford University)17+3 KamLAND-Zen

Azusa Gando (RCNS, Tohoku University)17+3 New Results from GERDA Phase II

Anna Julia Zsigmond (Max Planck Institute for Physics)17+3 New Results from the MAJORANA DEMONSTRATOR

Vincente Guiseppe (University of South Carolina)10h20 Co�ee break10h50 Session 11 : Double Beta Decay 2

Chair: N. Smith17+3 Latest Results from the CUORE Experiment

Jonathan Ouellet (Massachusetts Institute of Technology)17+3 SNO+

Gabriel Orebi Gann (UC Berkeley and LBNL)25+5 The Mid and Long Term Future of Neutrinoless Double Beta Decay

Andrea Giuliani (CSNSM, Orsay and DiSAT, Como)17+3 Double-beta-decay Matrix Elements and the e�ective Value of weak axial

CouplingJouni Suhonen (University of Jyväskylä)

12h20 Lunch break14h00 Session 12 : Neutrino Astronomy 1

Chair: G. Anton35+5 A View of the Universe with the IceCube and ANTARES Neutrino Tele-

scopesIgnacio Taboada (Georgia Institute of Technology)

25+5 Reaching for the highest Energy NeutrinosAmy Connolly (Ohio State University)

35+5 Multi-Messenger Physics of astrophysical Neutrinos and Cosmic RaySourcesPeter Meszaros (Pennsylvania State University)

15h50 Co�ee break16h20 Session 13 : Neutrino Astronomy 2

Chair: Ch. Spiering35+5 Future Neutrino Telescopes in Water and Ice

Uli Katz (University of Erlangen-Nürnberg)17h00 Session 14 : Poster Prize Competition: Wednesday Finals30 Poster Finals Wednesday18h00 Poster Session 2

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Thursday, 7 June

09h00 Session 15 : Coherent Neutrino ScatteringChair: K. Heeger

21+4 The COHERENT Collaboration and the �rst Observation of voherentelastic Neutrino-Nucleus ScatteringGrayson Rich (University of Chicago)

21+4 The Status of CONUSWerner Maneschg (Max-Planck-Institut für Kernphysik)

21+4 Neutrino-Nucleus coherent Scattering with Reactor and Solar NeutrinosHenry Wong (Academia Sinica, Taipei)

21+4 Theoretical Implications of coherent Neutrino ScatteringOmar Miranda (Cinvestav)

10h40 Co�ee break11h10 Session 16 : Laboratory Neutrino Mass Determination/IUPAP

Chair: H. Robertson21+4 KATRIN: Toward aHigh-Precision NeutrinoMass Determination with Tri-

tiumDiana Parno (Carnegie Mellon University)

21+4 Determining the Electron Neutrino Mass with Ho-163Loredana Gastaldo (Heidelberg University)

17+3 Project 8: Progress Towards using Cyclotron Radiation Emission Spectro-scopy on atomic Tritium for a Neutrino Mass MeasurementGray Rybka (University of Washington)

10 The IUPAP Neutrino PanelKenneth Long (Imperial College London/STFC)

12h30 Excursions18h30 Conference Banquet (admission starting 17h45)

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Friday, 8 June09h00 Session 17 : Theory

Chair: M. Tanimoto21+4 LHC Tests of low Scale Neutrino Mass Generation

Bhupal Dev (Washington University, St. Louis)25+5 Neutrino Mass Models and their Connections with other BSM Physics

Raymond Volkas (The University of Melbourne)21+4 Rare Decays with Lepton Flavor

Julian Heeck (Université Libre de Bruxelles)21+4 New Neutrino Phenomena

Danny Marfatia (University of Hawaii at Manoa)10h45 Co�ee break11h15 Session 18 : Sterile Neutrinos and Interpretations 1

Chair: A. Barabash17+3 Detection of Reactor Neutrinos with DANSS: Results of one-year Operation

Viatcheslav Egorov (JINR, Dubna)17+3 NEOS Result and Prospects

Yoomin Oh (Institute for Basic Science, Daejeon)17+3 Latest Results of the STEREO Experiment

Jacob Lamblin (Univ. Grenoble Alpes, LPSC)17+3 PROSPECT: The Precision Reactor Oscillation and Spectrum Experiment

Thomas Langford (Yale University)12h35 Lunch break14h00 Session 19 : Sterile Neutrinos and Interpretations 2

Chair: H. Minakata17+3 SoLid: Search for Oscillations with a Lithium-6 Detector

Nick Van Remortel (Antwerp University)17+3 Updated MiniBooNE νµ → νe Oscillation Results

En-Chuan Huang (Los Alamos)25+5 MicroBooNE and the future SBN Program

Roxanne Guenette (Harvard)25+5 Sterile Neutrinos: the global Picture

Michele Maltoni (Instituto de Fisica Teorica UAM/CSIC)15h40 Co�ee break16h10 Session 20 : Sterile Neutrinos and Interpretations 3/Neutrinos and Cosmo-

logyChair: A. Dighe

21+4 Other Experimental Approaches to the Sterile Neutrino and Possible Ap-plicationsJonathan Link (Virginia Tech)

25+5 Neutrino Properties from CosmologyJulien Lesgourgues (RWTH Aachen)

21+4 Leptogenesis and the Dirac PhaseMarco Drewes (Université catholique de Louvain)

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Saturday, 9 June

09h00 Session 21 : Supernova Neutrinos/Neutrinos and Graviational WavesChair: B. Kayser

21+4 Neutrino-driven Explosions in 3D Supernova SimulationsHans-Thomas Janka (Max-Planck-Institut für Astrophysik)

21+4 Supernova Neutrinos: Challenges and OpportunitiesBasudeb Dasgupta (Tata Institute)

21+4 LIGO-Virgo’s Discovery of a binary Neutron Star Merger from a Multi-Messenger PerspectiveImre Bartos (University of Florida)

10h15 Co�ee break10h45 Session 22 : Neutrinos and Graviational Waves/Connections to Dark Mat-

terChair: Y. Suzuki

30+5 The Role of Neutrinos in the Multi-Messenger Picture of binary NeutronStar MergersBrian Metzger (Columbia University)

21+4 keV Neutrinos and Dark MatterKevork Abazajian (UC Irvine)

21+4 Synergies between future Neutrino and Dark Matter DetectorsRafael Lang (Purdue University)

12h10 Lunch break13h45 Session 23 : Closing Session

Chair: Ch. Weinheimer35+5 Neutrino 2018: Messages from a Theorist

Francesco Vissani (LNGS/GSSI)35+5 Experimental Outlook

Takaaki Kajita (ICRR, Tokyo University)15 Closing

Guido Drexlin (Karlsruhe Institute of Technology)15 Report from INC

Stephen Parke (Fermilab)

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Posters and ExhibitorsA map of the upper level of the conference venue with the location of the poster wallsand industrial exhibitors. The complete list of posters follows on the next pages.

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Poster PrizeA jury will choose among the posters submitted for the competition 10 �nalists fromeach of the two poster sessions who get the opportunity to give a two-slide oralpresentation (2 minutes 40 seconds) before their poster session starts. Among those20 �nalists, poster award winners will be selected. The awards will be presented in asmall ceremony during the conference banquet on Thursday evening.

Poster Session 1, Monday, 4 June, 18h00 - 20h00

Wall no. Robert-Schumann-Zimmer2 The Condensed Krypton Source (CKrS) as Calibration Tool for KATRIN3 Analysis Strategies for the KATRIN Experiment4 Investigations of the KATRIN interspectrometer Penning trap5 First stability measurements of the KATRIN WGTS cryostat performance6 TRIMS: Validating Tritium Molecular E�ects for Neutrino Mass Experiments7 Forward Beam Monitor data from KATRIN �rst tritium measurements8 Alignment studies for the KATRIN experiment9 Production, Separation and Implantation of 163Ho for Neutrino Mass Measurements10 Ab initio calculation of the calorimetric electron capture spectrum of 163Holmium11 Commissioning and Characterization of the Tritium Gas Circulation System of the KATRIN Experiment12 High Voltage Monitoring and Characterization at KATRIN13 First spectroscopic measurements of conversion electrons from the gaseous Kr-83m at the KATRIN exper-

iment14 Project 8: Measuring the Tritium Beta-Decay Spectrum using Cyclotron Radiation Emission Spectroscopy15 Modeling of the response function of the KATRIN experiment16 KATRIN Background Characterization17 Results from the First Tritium campaign of KATRIN18 Backgrounds in the ECHo-experiment19 Sources of monoenergetic electrons from decay of 83mKr for KATRIN20 Probing the neutrino mass with calorimetric electron capture spectroscopy: the HOLMES project21 Concept for an Atomic Tritium Experiment: Phase IV of Project 822 The Electron Capture in 163Ho experiment - ECHo23 Large arrays of metallic magnetic calorimeters for ECHo24 Project 8 Phase III Design Progress25 Retention measurements of the KATRIN Cryogenic Pumping Section26 Electron Gun for KATRIN27 Calibration strategy and status of tritium purity monitoring for KATRIN28 Tritium ion monitoring during KATRIN First Tritium29 Methods for an unbiased neutrino mass analysis with KATRIN30 Impact of Beyond the Standard Model Physics in the Detection of the Cosmic Neutrino Background31 Local density of relic neutrinos and its implications for PTOLEMY32 Deconstructing neutrino mass constraints from galaxy redshift surveys

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Wall no. Empore Right33 Progress in Ba tagging for nEXO: Imaging of single Ba atoms in solid xenon34 ZICOS –Neutrinoless double beta decay experiment using Zr-96 with an organic liquid scintillator-35 Examination and improvement of nuclear matrix elements of double-β decay in QRPA approach36 Optimization of the CUORE bolometers response37 Performance of the CUORE detector: the �rst bolometric experiment at the ton scale for rare decay searches38 Results from the CUORE experiment39 Study of Deposition Quality of 207Bi Calibration Sources for SuperNEMO Experiment40 Virtual depth by active background suppression: cosmic muon induced background of GERDA Phase II41 76Ge detector R&D strategy for LEGEND42 Double beta decay of Ge-76 into excited states of Se-76 in GERDA43 Neutrinoless double beta decay searches with the XENON dark matter experiment44 Deep Neural Networks for Energy and Position Reconstruction in EXO-20045 SuperNEMO 0νββ sensitivity studies46 Internal Backgrounds in the Water Phase of SNO+47 First Result on the Neutrinoless Double Beta Decay of 82Se with CUPID-048 Topological signatures of 0nldbd events on a stripped 2-dimensional readout at a high pressure Xenon TPC49 NEXT: NEW backgrounds and extrapolation to NEXT-10050 Calibration Systems for the SuperNEMO Experiment51 The large enriched germanium experiment for neutrinoless double beta decay (LEGEND)52 AXEL — a high pressure xenon gas TPC for 0νββ search53 NuDot: Double-Beta Decay with Direction Reconstruction in Liquid Scintillator54 SNO+ Tellurium Loading for Neutrinoless Double Beta Decay55 Characterization of the electron transport properties in pure xenon with NEXT-White and study of helium-

xenon mixtures as a promising alternative.56 The Status of the AMoRE experiment57 First result of the CANDLES III experiment searching for double beta decay of 48Ca58 Solar Neutrino Capturee Cross-Section for Ge-76 Nuclei59 Energy calibration of the GERDA experiment60 Rare Low-Energy Event Searches with the MAJORANA DEMONSTRATOR61 Characterization of the NEXT-White Detector with Calibration Data62 Studies of Photoelectricity and Multi-Photon Ionization in Gaseous and Liquid Xenon63 Radon Background Mitigation for the SuperNEMO Experiment64 LEGEND-200 Preliminary Design Background Modeling65 The COBRA Extended Demonstrator66 Energy reconstruction with the SuperNEMO calorimeter.67 The 136Xe neutrinoless double beta decay search with LZ68 Front-End Electronics for the LEGEND Neutrinoless Double Beta Decay Experiment69 Barium daughter tagging using single molecule �uorescence imaging70 Deep Learning for Liquid-Scintillator-Based Double-Beta Decay Searches71 AmBe source calibration in the SNO+ water phase72 Comparing Spherical Harmonics Analysis and Machine Learning Techniques for Double-Beta Decay Iden-

ti�cation in a Large Liquid Scintillator Detector73 Calibration of the SNO+ Detector with a Light Di�using Source in the Water Phase74 Characterization of VUV-sensitive SiPMs for nEXO75 Full α background rejection in a CUORE-size TeO2 bolometer using a Neganov-Luke-e�ect light detector76 Mo-100 double-beta decay search in the CUPID-Mo experiment with enriched scintillating bolometers77 Upgrade of the GERDA experiment78 Data Quality and Run Selection for SNO+

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Wall no. Empore Left79 SNOLAB’s Neutrino Program80 Analysis Techniques and Background Model for the MAJORANA DEMONSTRATOR82 Measurement of Quenched Axial Vector Coupling Constant in In-115 Beta Decay and its Impact on Future

0νββ Searches83 SMELLIE: A Laser Calibration System for SNO+84 Search for two-neutrino double electron capture of Xe-124 with XENON1T85 An active noise cancellation technique for the CUORE Pulse Tube Cryocoolers86 Measurement of 144Ce - 144Pr beta-spectra with Si(Li) detectors for the purpose of determining the

spectra of electron antineutrinos.87 The Sanford Underground Research Facility88 Detecting light ions and electrons with TRIMS silicon detectors89 A novel water-Cherenkov detector design with retro-re�ectors to produce antipodal rings90 Distributed Imaging for Liquid Scintillation Detectors91 A Liquid Scintillator Transparency monitoring Laser System for JUNO92 Data reconstruction and analysis for the 3x1x1 m3 dual phase Liquid Argon Time Projection Chamber

prototype93 Deep Learning in LArTPCs with SBND94 The Reactor Neutrino Energy Spectrum Measurement with a High Pressure Gas TPC Detector95 Ionization Readout Tile for nEXO96 Development of Highly Integrated Low-mass Signal Readout Electronics for the LEGEND Experiment97 E61 Photosensor and Electronics Design98 Status of R&D toward the nEXO detector99 Study of Photon Transport and SiPM in External Electrical Field in nEXO100 Liquid scintillator study for JUNO101 Recent Progress on Wire-Cell Tomographic Event Reconstruction for LArTPCs102 The nEXO TPC: High Voltage Design R&D103 Neutrino event detection with nuclear emulsion in the NINJA experiment104 Precise measurement of Neutrino Cross-sections and Neutrino Flux with Hybrid Emulsion Experiments

for �nding neutrino CP violation - NINJA and EMPHATIC -105 The 3-inch PMTs of the JUNO experiment106 Analytical formula of the pulses in the neutrino telescope Baikal GVD.107 Stereo Calorimetry in JUNO: Physics Motivation and Instrumentation108 R&D towards TES based Cherenkov light detection for CUPID109 Performance of custom designed inverted coaxial HPGe detectors for GERDA and LEGEND110 Glass half empty or half full: mediating the e�ects of glass radioactivity in reactor antineutrino detection111 Low-Background Screening and Measurement Facility at the Boulby Underground Laboratory in the UK112 Initial Performance of the PROSPECT Antineutrino Detector113 A machine learning approach to track identi�cation in emulsion cloud chambers114 The ‘Gen-II’ LAPPDTM : Large-Area Ceramic-Body Planar MCP-based Photo-Detectors115 First operation of a ton scale dual phase liquid argon TPC116 Silicon drift detector prototypes with the IDef-X readout for the keV-scale sterile neutrino search with

TRISTAN and analysis of �rst tritium data117 Collaborative Development of Deep Neural Networks for Particle Imaging Detectors118 Possible electron neutrino sources with a modulated monochromatic component119 Metal-beta-diketone Scintillators for Neutrino Experiments120 New read-out electronics for the TPC wires of the ICARUS detector121 Scintillation light DAQ and trigger system for the ICARUS T600 at Fermilab.122 The Road to Theia123 The Discovery Potential of Theia124 Plans for a Giant Radio Array for Neutrino Detection (GRAND)

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Wall no. Hölderlin-Saal125 Low-scale seesaw from neutrino condensation126 Search for Sterile Neutrinos at RENO127 IsoDAR – A decisive 3+1 sterile neutrino search.128 Sterile neutrino in keV region in Tritium decay by Trotsk nu-vass129 Light sterile neutrino search from Daya Bay130 Analysis of the �rst data set from the SoLid experiment131 Sterile Neutrino Decay132 First Results from the NOvA Antineutrino Neutral-Current Disappearance Sterile Neutrino Search133 A model for a keV-scale sterile neutrino search with KATRIN: SSC-sterile134 Probing Light Sterile Neutrino at ICAL-INO over a wide ∆m2

41 range135 Search for keV-scale sterile Neutrinos with the �rst Light of KATRIN136 Prospects for KeV sterile neutrinos in β decay with KATRIN and in neutrinoless double beta decay137 Search for sterile antineutrinos in MINOS and MINOS+138 Constraining the atmospheric neutrino oscillation parameters and the 3+1 sterile neutrino model with the

ANTARES neutrino telescope139 Searching for Sterile Neutrino Oscillations with the PROSPECT Experiment140 Search for sterile neutrino oscillations in muon neutrino disappearance in MINOS/MINOS+141 Search for sterile neutrinos in neutrino data in the NOvA near and far detectors142 Short-Baseline Sterile Neutrino Searches with the NOvA Near Detector143 Appearance of tau neutrinos in the MINOS+ near detector due to the oscillations involving sterile neutrinos144 Development of a silicon drift detector system for the TRISTAN project145 Oscillation �ts of the STEREO experiment146 Liquid Scintillator for the PROSPECT Antineutrino Detector147 Status of the Reactor Anti-Neutrino Anomaly148 The TRISTAN project149 Testing keV sterile neutrino Dark Matter in future direct detection experiments.150 The 3+1 Neutrino Model at NOνA and DUNE151 Online Commissioning of the SoLid Experiment152 NuWro - neutrino Monte Carlo event generator153 Hunting Muon Neutrinos in MicroBooNE with Deep Learning Techniques154 Dark rates induced by radioactive decays in optical modules for neutrino telescopes155 Calibration of atmospheric neutrino �ux calculations using cosmic muon �ux and charge ratio measure-

ments156 Neutrinoless Double Beta Decay Search in Gerda

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Wall no. Ballsaal157 Introduction to Monte Carlo Simulation at JUNO158 Samak: Matlab Simulation and Analysis for the KATRIN experiment159 Inverse Beta Decay directionality with the Double Chooz Experiment160 Experimental study of decoherence e�ects in neutrino oscillations in Daya Bay161 Detection of reactor neutrinos with a delayed signal of neutron capture on Hydrogen at RENO162 Reconstruction of the inverse beta decay in the DANSS experiment163 The study of JUNO CD with a prototype detector164 Spectral measurement of electron antineutrino disappearance via neutron capture on hydrogen at Daya

Bay165 Cosmogenic Neutron Production at Daya Bay166 The energy response model of the Daya Bay electron antineutrino detectors167 Latest results of the reactor antineutrino �ux and spectrum at Daya Bay168 Future prospects of experiment Neutrino-4169 Present status of experiment Neutrino-4170 The 20-inch PMT instrumentation for the JUNO experiment171 Calibration and quality assurance of the SoLid detector172 Precise measurement of theta13 and ∆m2

ee at RENO173 Fuel dependent yield of reactor neutrinos at RENO174 attenuation length monitor for the JUNO �lling system175 Earth Magnetic Field Compensation Coils System for JUNO176 The PMT Mass Testing System for JUNO177 3D Topological Reconstruction for the JUNO Detector178 Measurement of theta13 in the reactor neutrino events with neutron captures on Hydrogen at RENO179 Tested Performance of JUNO 20"PMTs180 Seasonal muon modulation at Daya Bay181 The water system and radon measurement system of JUNO veto detector182 The Filling System Slow Control for JUNO183 The Top Tracker detector of the JUNO Experiment184 Model-Independent electron antineutrino Short-Baseline Oscillations from Reactor Spectral Ratios185 Radioactive background control for the JUNO experimental setup186 GNA �tter and Detector response impact on MH sensitivity study187 Background-independent measurement of θ13 in the Double Chooz experiment188 Towards a Precise Measurement of the 235U Antineutrino Spectrum with PROSPECT189 Backgrounds characterization, veto and measurement for the Double Chooz Experiment190 Water Cherenkov detector of the JUNO Veto System191 Search for a high-energy neutrino signal from Fast Radio Bursts with the ANTARES telescope192 Calculation of Antineutrino Spectra Generated by Nuclear Reactors Using Nuclear Databases193 The ILL antineutrino spectrum194 Design, assembly, and installation of the PROSPECT antineutrino detector195 Response of the STEREO detector196 Energy reconstruction in the STEREO experiment197 Measurement of the neutrino rates in the STEREO experiment198 Measurement of the evolution of the reactor antineutrino �ux and spectrum at Daya Bay199 Novel Total neutron Capture detection technique in the Double Chooz Experiment200 Waveform Reconstruction of IBD and Muon Events in JUNO202 Con�dence regions for reactor neutrino oscillation parameters θ13 and ∆m2

31 from Double Chooz Farand Near data

203 Constraints on neutrino decay scenarios with electron anti-neutrino disappearance experiments.204 Potential of geo-neutrino measurements at JUNO and the Local 3D model205 The Double Chooz Rate+Shape θ13 Fit206 Search for light sterile neutrinos with the Double Chooz experiment207 First-forbidden decays in the reactor anomaly and shoulder208 NuLat: A Novel Design for a Reactor Anti-Neutrino Detector

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Poster Session 2, Wednesday, 5 June, 18h00 - 20h00

Wall no. Robert-Schumann-Zimmer1 Neutrino physics with the XMASS liquid xenon detector2 First Measurement of Atmospheric Neutrino Neutral-Current Quasi-Elastic Interactions for Supernova

Relic Neutrino Search at Super-Kamiokande3 Triggering on Supernova Burst Neutrinos at DUNE4 Towards a complete reconstruction of supernova neutrino spectra in future liquid-scintillator detectors5 HALO-1kT –Helium And Lead Observatory for Supernova Neutrinos with High Sensitivity to νe6 The Precision Measurement of Reactor Antineutrino Oscillation at Daya Bay7 Data Unfolding for the Helium and Lead Observatory8 Accounting for the neutrino sphere width in e�ective and full calculations of neutrino oscillations9 Detection of MeV supernova neutrinos with the KM3NeT neutrino telescope10 Detecting supernova neutrino bursts with SK-Gd prototype: EGADS11 Simulation Studies on Supernova Neutrino Detections in JUNO12 Supernova Neutrino Detection in DUNE13 Detection of Galactic Supernova Neutrinos at the NOvA Experiment14 Galactic core-collapse supernova burst rate from di�erent estimation methods15 Pre-Supernova Silicon Burning Neutrinos at Super-Kamiokande16 Study of astrophysical neutrinos at Hyper-Kamiokande17 Nuclear Weak Interactions in Core-Collapse Supernovae18 Sensitivity of multi-PMT optical modules to MeV supernova neutrinos in South Pole ice19 Supernova neutrino sensitivity and physics reach of the PICO 500 experiment20 Supernova Neutrino Neutrino Astronomy21 Average CsI neutron density distribution from COHERENT data22 Quenching Factor Measurements for Germanium Detectors at TUNL23 Prospects for Exploring New Physics in Coherent Elastic Neutrino-Nucleus Scattering Experiments24 Exploring coherent neutrino-nucleus scattering with NU-CLEUS25 Measuring Coherent Elastic Neutrino Nucleus Scattering with the CENNS-10 Liquid Argon Detector26 Development of innovative cryogenic detectors for precise measurement of coherent elastic neutrino-

nucleus scattering27 Extracting Nuclear Form Factors from Coherent Neutrino Scattering28 Neutrino Non-Standard Interaction Studies with COHERENT at the Spallation Neutron Source29 A Ton-Scale NaI Detector for Coherent Neutrino-Nucleus Scattering Studies30 Neutrino Flux Simulations for COHERENT at the ORNL Spallation Neutron Source31 The RED-100 experiment on CEvNS study32 Neutron Backgrounds for COHERENT with MARS

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Wall no. Empore Right33 Limit on the e�ective magnetic moment of solar neutrinos from Borexino Phase-II data34 Solar boron-8 neutrino detection with the LZ dark matter experiment35 Study for g-mode oscillations in the Sun using solar neutrino with Super-Kamiokande36 Clusterization algorithm for sub-MeV events reconstruction in JUNO37 LOREX - Geochemical Detection of the pp-Neutrino �ux with 205Tl38 Study of tau-neutrino production at the CERN SPS39 Neutrino CP Violation with the European Spallation Source neutrino Super Beam project40 The upgrade project of the T2K near detector41 Development of a 3D highly granular scintillator neutrino detector for the T2K experiment42 Energy reconstruction in DUNE-DP43 Search for heavy neutrinos with the near detector ND280 of the T2K experiment44 The light detection system in ProtoDUNE-DP45 Searching for Beyond the Standard Model Physics with the DUNE Experiment46 The Neutrino Beam of Experimental Muon Source at China Spallation Neutron Source47 The ProtoDUNE single-phase liquid argon detector and beam measurement program at CERN48 Studying the impact of neutrino cross-section mismodelling on the T2K oscillation analysis49 Calibrating a Liquid Argon Detector using Stopping Muons52 Constraints on Large Extra Dimensions from MINOS and MINOS+53 Three Flavor Oscillation Results from MINOS and MINOS+54 Study of neutrons produced in neutrino interactions with a water target at T2K55 Constraining the T2K Neutrino Flux Prediction with 2009 NA61/SHINE Replica-Target Data56 Neutrinos, DUNE and the world best bound on CPT invariance57 The Pandora multi-algorithm approach to pattern recognition at ProtoDUNE59 First Ever Ionization Cooling Demonstration in MICE60 Neutrino Interaction Model Tuning at NOvA61 Recent results from MICE on multiple Coulomb scattering and energy loss62 Recent results from the study of emittance evolution in MICE63 An updated search for muon neutrino to electron neutrino transitions mediated by sterile neutrinos in

MINOS+64 Measurement of phase-space density evolution in MICE, the Muon Ionization Cooling Experiment.65 Scintillation light simulation in the context of DUNE dual phase liquid argon TPC66 First νµ + ν̄µ Disappearance Results from the NOvA experiment67 Towards Automated Neutrino Selection at MicroBooNE Using Tomographic Event Reconstruction68 Updated Results for the Search for ν̄µ → ν̄e Oscillations from T2K in the 3-�avour Framework69 Comparison of vµ-Ar multiplicity distributions observed by MicroBooNE to GENIE predictions70 Electron-neutrino reconstruction in MicrobooNE using the Pandora reconstruction framework71 Applying Deep Neural Network Techniques for LArTPC Data Reconstruction72 3D position reconstruction of charge deposits in MicroBooNE using deep learning techniques73 Vertex-Finding and Reconstruction for Contained Two-track Neutrino Events in the MicroBooNE Detector74 The physics potential of a neutrino beam from Protvino to ORCA75 Anti-neutrinos in the NOνA muon neutrino disappearance search76 Oscillation Sensitivity in the Deep Underground Neutrino Experiment77 Current and future measurements of electron neutrinos and antineutrinos in the T2K o�-axis near detector78 Reconstructing Neutrino Energies with the NOvA Detectors

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Wall no. Empore Left79 Neutrino physics with deep learning. Techniques and applications on NOvA.80 Data-driven Techniques for νe Signal and Background Predictions in NOνA81 Systematic Uncertainties and Cross-Checks for the NOvA Joint νµ + νe Analysis82 NOvA joint νe + νµ oscillation results in neutrino and antineutrino modes83 Towards a NuMu CC0Pion2Protons Cross section measurement at the MicroBooNE detector84 The ENUBET neutrino beam85 Understanding the Degenerate Solutions of NOvA86 Measuring neutrino oscillations around the second maximum87 Physics Sensitivity Studies at Korean Neutrino Observatory88 Systematic Uncertainties in the NOvA νµ-Disappearance Analysis89 MINOS Lessons for the NuMI Beam Flux90 The VALOR Neutrino Oscillation Analysis91 Sterile Neutrinos at the FCC - Searches for physics beyond the Standard Model92 Searches for heavy neutral lepton production and lepton �avour violation in kaon decays NA6293 Neutrino and Anti-Neutrino CP-Violation Framework at π-Decay at Rest94 Search for Heavy Majorana Neutrinos with the Same-Sign Dilepton plus Jets Channel with CMS at 13 TeV95 Measurement of muon neutrino CC0pi cross sections on Oxygen and Carbon at the T2K near detector96 E61: Reducing neutrino interaction model dependence for oscillation experiments97 Measuring the νµ CC-0pi cross section on lead at the T2K near detector98 GENIE v3 models and global �ts of neutrino scattering data99 Neutrino Cubes at the SNS –An Overview and Update100 Event selection for the measurement of the charged current muon antineutrino single pion production

cross section in the T2K near detector101 A 185 kg NaI[Tl] Detector for Observing the Charged-Current Neutrino Interaction on 127I102 Measurement of neutrino interactions on water and hydrocarbon with a 3D-grid detector in the WAGASCI

experiment103 Towards measurements of nuclear e�ects in MicroBooNE104 Characterisation of nuclear e�ects in muon-neutrino scattering at T2K105 Charged-current muon neutrino interactions with at least one neutral pion in the �nal state in the T2K

o�-axis near detector106 Status of the Neutrino-Induced Neutral Current Neutral Pion Production Cross Section Measurement from

NOvA107 Towards measuring charged-current and neutral-current single neutral-pion production using photon tag-

ging in the electromagnetic calorimeters of the ND280 near detector during T2K neutrino beam operation.108 Cross-Sections for the Solar Neutrinos Capture and Charge-Exchange Resonances109 First Muon Neutrino Charged-Current Inclusive Cross Section Measurement in MicroBooNE110 νµCC1π± event selection in SBND111 A muon antineutrino CCπ0 inclusive analysis at the T2K near detector ND280112 Measuring nuclear e�ects of semi-exclusive CCNpMπ0 �nal states using the MINERνA Detector113 A preliminary νµCC0π event selection in SBND114 MicroBooNE tests of the MiniBooNE Low Energy Excess115 Search for NC single photon events in MicroBooNE116 What measurements of neutrino neutral current events can reveal117 Polarized electron target as tool for testing time reversal symmetry violation and neutrino nature in leptonic

weak interactions at low energies118 Neutrino Nucleus Deep Inelastic Scattering in MINERvA119 Measurement of nuclear e�ects via �nal-state correlations in quasi elastic-like events on hydrocarbon at

MINERvA120 The ANNIE Experiment - Results from Phase I121 Measurement of Neutrino-Electron Elastic Scattering at NOvA Near Detector122 The ANNIE Experiment - Phase II Physics and R&D123 A High-Pressure TPC Prototype124 First Measurement of Muon Neutrino Charged Current Neutral Pion Production with a LArTPC

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Wall no. Hölderlin-Saal125 Nonresonant background signal in the polarization transfer in the weak pion production o� the nucleon126 Directional Search for Dark Matter Using Nuclear Emulsion127 Colored scotogenic128 On the evolution process of two-component dark matter in the Sun129 DARWIN: an excellent environment to probe neutrino physics130 Search for resonant absorption of solar axions by 83Kr nuclei131 Direct Dark Matter Search with the CRESST-III Experiment132 Searches for DM with the ANTARES and KM3NeT neutrino telescopes133 Combined search for dark matter with the ANTARES and IceCube neutrino telescopes134 Search for neutrinos from dark matter annihilation in the Earth core with the Super-Kamiokande detector135 Low-background techniques for neutrino physics searches with DARWIN136 Evolution equations of neutrino mixing in matter137 Electromagnetic properties of neutrino138 Neutrino decoherence in matter139 Neutrino spin oscillations engendered by transversal matter current140 Neutrino �avour, spin and spin-�avour oscillations and consistent account for a constant magnetic �eld141 Disentangling genuine CP violation from matter e�ects in neutrino oscillations142 Renormalization-Group Equations of Neutrino Masses and Flavor Mixing Parameters in Matter143 Roles of Peccei-Quinn symmetry in an e�ective model for dark matter and neutrino mass144 Neutrino mixing matrices with prescribed singular values145 See-saw mechanism in models with Higgs triplet and sterile neutrino with Yukawa alignment146 Precision neutrino data confronts µ ↔ τ symmetry147 Low-scale leptogenesis with 3 right-handed neutrinos148 Lepton Masses and Mixing in Two-Higgs-Doublet Model149 Predictions for Right-Handed Neutrinos From the Littlest Seesaw and Leptogenesis150 Nuclear and Particle Conspiracy Solves Both Reactor Antineutrino Anomalies151 Future DUNE constraints on EFT152 Demonstration of true 3D micro-power readout for liquid argon time projection chambers153 Perovskite quantum dots in liquid scintillator154 Se-82 imaging detectors for a de�nitive search for neutrinoless double beta decay155 Neutrinos from decays of stopped atmospheric muons in the Earth156 Latest Measurements of Atmospheric Neutrino Oscillation Parameters With IceCube-DeepCore

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Wall no. Ballsaal157 Improvement of atmospheric neutrino prediction at low energies using the muon �ux at high altitude158 KM3NeT/Super-ORCA: Measuring the leptonic CP-phase with atmospheric neutrinos –a feasibility study159 Tau-neutrino appearance with KM3NeT/ORCA160 A high-statistics search for non-standard neutrino interactions with IceCube DeepCore161 Sensitivity of ORCA to the neutrino mass ordering and oscillation parameters162 Search for proton decay with Super-Kamiokande163 The IceCube Upgrade164 Characterization of the atmospheric neutrino �ux at 6-180 GeV in IceCube-DeepCore.165 Measurement of Atmospheric Tau Neutrino Appearance with IceCube/DeepCore166 A reverse IceCube Event Reconstruction167 Spin light of neutrino e�ciency in Gamma-Ray Bursts168 Environmental decoherence in atmospheric neutrinos with IceCube.169 Astrophysics with NOvA170 A Multi-Component Model for the Observed Astrophysical Neutrinos171 Tau Airshower Astronomy in space172 Hunting for cosmogenic neutrinos with the ARIANNA experiment173 New measurements with high-energy neutrinos in IceCube174 Electromagnetic interactions and oscillations of ultrahigh-energy cosmic neutrinos in interstellar space175 Results from Testing the Neutrino Mass Ordering with Three Years of IceCube DeepCore Data176 Improving Astrophysical Tau Neutrino Identi�cation with IceCube Waveforms177 New physics searches with TeV neutrinos in IceCube178 A Rigorous Formalism to Study the Ultra High Energy Cosmic Ray Particles including Neutrinos Detected

by ANITA179 Improving reconstruction of GeV-scale neutrinos in IceCube-DeepCore by direct event simulation180 Search for solar atmospheric neutrinos with the IceCube Neutrino Observatory181 Very High Energy Gamma-ray detection by MAGIC from a direction coincident with the IceCube neutrino

event182 Analysis of vertex-contained high energy neutrino events for the KM3NeT/ARCA detector.183 Latest results on astrophysical neutrinos using high-energy events with contained vertices184 Searching for Optical Counterparts to High-Energy Neutrino Sources with the Zwicky Transient Facility185 Multi-messenger real-time analyses of transient events with the ANTARES neutrino telescope186 Studying neutrino absorption through the Earth with ANTARES and KM3NeT/ARCA187 Search for a neutrino counterpart to the HAWC 2-year gamma-ray catalog with the ANTARES telescope188 Search for a neutrino emission from local superbubbles with the ANTARES neutrino telescope189 A search for low energy neutrinos in correlation with gravitational wave events GW150914, GW151226

and GW170104 with the Borexino detector190 Study of thermal neutrinos in short gamma-ray bursts191 A hypercritical accretion scenario in Central Compact objects accompanied with an expected neutrino

burst192 Baikal-GVD –The Next Generation Neutrino Telescope in Lake Baikal193 Results from the �rst ARCA and ORCA detector units194 Searching for Transient Neutrino Sources with IceCube in Real-Time195 Search for time and space correlations between ANTARES data and IceCube high energy neutrino events196 Constrains on the origin of high-energy neutrino sources with HAWC197 AGILE detection of gamma-ray sources coincident with cosmic neutrino events198 High-Energy Neutrino follow-up of the �rst neutron star/neutron star gravitational-wave event GW170817199 New measurement of the �avor composition of high-energy neutrino events with contained vertices in

IceCube200 Search for high-energy neutrino emission from Mrk 421 and Mrk 501 with the ANTARES neutrino telescope201 Blazars as neutrinos factories202 Deep Neural Networks for Rare Event Searches in DUNE203 Design Improvements to Cables and Connectors in the MAJORANA DEMONSTRATOR204 IceCube study of down-going neutrinos for the spectral cuto� determination205 The Askaryan Radio Array: Current Status and Future Plans206 Trinity: An instrument to detect cosmogenic neutrinos with the Earth skimming technique208 Ultra-high energy neutrinos at the Pierre Auger Observatory209 The Wavelength Shifting Optical Module

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Social Events

Welcome Reception

On Sunday, 3rd June 2018, there is a welcome reception at the conference venue. Ittakes place from 16h00 till 21h00 and is included in your conference fee.

Poster Session Receptions

On Monday, 4th June 2018, and Wednesday, 6th June 2018, the poster sessions o�er thepossibility for discussion and exchange. Each session starts with plenary presentationsof poster prize competition �nalists. During the poster sessions, there are prezels,German beer and other beverages. All is included in your conference fee.

Public Lecture

On Tuesday, 5th June 2018 the general public is invited to the conference venue.Starting at 18h00, the duo Stella Nova presents stunning and spectacular physicsexperiments, fascinating the young and the old. Combining science and entertainmentin a unique way, one can see rockets rise, vortices form, lightning strike and ballonsfreeze. No prior knowledge of physics is required to follow the interactive scienceshow.

At 19h00, a public lecture, jointly organised with the Deutsch-AmerikanischesInstitut (DAI) Heidelberg, takes place. Nobel laureate Arthur B. McDonald speaksabout “Neutrinos and You: What are they and why should you care?”

Conference Banquet

The conference banquet takes place at the conference venue on Thursday, 7th June2018. Admission starts with welcome drinks at 17h45, the main program starts at18h30. It includes a cultural programme, a physics show by Stella Nova, the posteraward ceremony and a dinner. We o�er a bu�et including vegan and vegetarianoptions. The banquet is included in your registration fee. Tickets for accompanyingpersons can be bought at the registration desk (65d per person, cash payment inEuro currency only).

Excursions

The participants made a choice for the excursion during the online registration. You�nd vouchers in your conference material, reminding you of your choice.

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Visit of the Karlsruhe Tritium Neutrino Experiment KATRIN The excursionon Thursday afternoon 7th of June o�ers a visit to the Karlsruhe Tritium NeutrinoExperiment, which is located at the Campus North site of the Karlsruhe Institute ofTechnology (KIT). Under the leadership of experienced guides from the collaborationwe will show you in small groups the experiment with its world largest ultra-highvacuum recipient and the unique tritium laboratory Karlsruhe. Transport to and fromthe experiment is by buses only. The pick-up point is in front of the main entranceshown in the map below (red bus symbol). Buses leave there at 12:40 p.m. sharp. Weneed to block the right turn lane of “Untere Neckarstrasse” for our buses, so enterquickly one of the 3 buses by showing your excursion ticket “KATRIN excursion”,which you received in your registration material. Buses leave the KATRIN experimentat 4 p.m., so expect to arrive back at Heidelberg at 5 p.m. Lunch boxes are suppliedin the buses and can be consumed there. In between the guided tour a break will betaken, in which additional refreshments are o�ered.

During the registration process we have inquired personal data (date and place ofbirth) from you for campus access. Please, carry with you a passport or comparableID cards. Taking pictures for non-commercial use is allowed. Inside the TritiumLaboratory only taking pictures from the KATRIN experiment is allowed.

River Cruise On the river cruise aboard Heidelberg’s �agship “Königin Silvia”(named after Heidelberg-born Queen Silvia of Sweden), you can enjoy scenic viewson old castles, renowned vineyards and medieval towns while you pass through theromantic Neckar valley. The valley, with its green hills and wild ravines, is known asone of Germany’s hidden gemstones. The boat departs and arrives at the pier in frontof the venue (purple anchor symbol in the map below). A lunch bu�et is providedduring the cruise.

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Guided City Tours of Heidelberg Heidelberg, known for the German Roman-ticism, attracts millions of tourists each year. On these excursions, you see all theplaces making Heidelberg known all around the globe. It includes e.g. the old bridge,the castle, the funicular railway, the oldest German university, the Church of the HolySpirit and many more. The guided tours start at the main entrance of the Stadthalle,at 13h30 for the 3 hours tours and 14h00 for the two hours tours. Lunch boxes can bepicked up before the tours start.

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PracticalInformation

Internet AccessInternet access is available inside the entire building and partly in its vicinity via theconference wi� and via eduroam. Please use both options. Access to the conferencewi� is possible with the following credentials:

SSID: Neutrino2018

Pass: Heidelberg2018!

ElectricityElectrical power is provided at many locations inside the venue. Power sockets inGermany follow the standard of type F (CEE 7/3, “Schuko”) with nominal voltage andfrequency of 230V and 50Hz, respectively.

Conference SecretariatThe conference secretariat is located in the ground �oor next to the auditorium. Or-ganisers will be present all the time. Our email address is nu2018@mpi-hd.mpg.de.For urgent cases, the phone number of the conference secretariat is ++49 (0)6221 1422-851 and -852.If necessary, news relevant to the participants will be send around via mail, or an-nounced on the conference website https://www.mpi-hd.mpg.de/nu2018/. You canalso follow us on facebook (https://www.facebook.com/neutrino2018), instagram(https://www.instagram.com/neutrino_2018/) and twitter (#Neutrino2018,https://twitter.com/neutrino2018).

Talk UploadThe auditorium is equipped with a Windows and a macOS computer. In addition, aportable head microphone, laser pointer and �oor teleprompters are available. Tech-nical assistance is available through the Stadthalle team and our student team. It is notpossible to connect your own computer. Please upload your slides to the conferencesystem as described below. You are also encouraged to bring your presentation asbackup on a USB drive.

How to upload Open the link that was sent to you via email (each plenary speakergets an individual upload link). Click on the upload symbol. In the new menu selectyour �les and upload them. Please upload your presentation two hours before thestart of your session. If you upload a source �le (e.g. LaTeX or PowerPoint), pleaseupload in addition at least one �le format readable on all computer systems (e.g. pdf).If you upload multiple versions of your presentation, please name them in a way thatallows us to identify the latest version. If we cannot identify the latest version fromthe �le name, we will use the most recent document. You may upload a modi�edversion of your presentation for the website and the proceedings until the end of theday and until June 10, respectively. If you do not upload a modi�ed version, we willuse the original presentation.

Proceedings

The Neutrino 2018 conference will publish online proceedings using the online archiveZenodo. With the consent of the presenter, all contributions to the conference (present-ation slides, posters) will be uploaded to Zenodo by the organisers after the end ofthe conference. Therefore, all talks and posters must be uploaded to the conferencesystem before Sunday, 10th June 2018. All uploads get a persistent DOI (Digital ObjectIdenti�er) and are fully and uniquely citeable. They are attributed to the conferenceand stored safely for the future. If a presenter wishes to produce and upload a typesettraditional proceedings to the arXiv, the conference will link this manuscript to theconference proceedings if noti�ed of the arXiv number before Saturday, 1st September2018. Note that this is purely voluntarily.

Lunch and dinner

There is a daily changing lunch bu�et at the venue on all days (except excursion day).It includes vegan and vegetarian options. The bu�et is included in your conferencefee. For dinner, Heidelberg o�ers countless possibilities. Go in any direction fromthe conference venue (mind the river, though) and you will �nd attractive dinneroptions. Below you can �nd a list of possible places. Most of the restaurants belowo�er vegetarian dishes but best suited restaurants are marked with a green V.

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Traditional German:2 Perkeo Hauptstrasse 753 Palmbräu Gasse Hauptstrasse 185 (3)4 Vetter’s Alt Heidelberger Brauhaus Steingasse 95 Kulturbrauerei Leyergasse 6 (5)6 Schnitzelbank Baumamtgasse 7 (Reservation recommended)7 Essighaus Plöck 97

Burger and salads:8 Die Kuh die lacht V Hauptstrasse 133 (self-made Hamburger)9 Joe Molese Steingasse 16a10 Hans im Glück Hauptstrasse 187 (Reservation recommended)11 O’Reilly’s Irish Pub Brückenkopfstrasse 1

Japanese & Korean:12 MoschMosch V Hauptstrasse 13613 Sakura Bergheimer Str. 714 Ikoi Hauptstrasse 105 (all you can eat)15 Soban Restaurant Zwingerstrasse 2 (Reservation recommended)16 Gogi Matcha Korean Barbacue Haspelgasse 4

More Asian food:17 Mr. Wu Bahnhofstrasse 418 China restaurant ASIA Haspelgasse 219 Vietnamese restaurant Saigon Sonne V Hauptstrasse 17020 Thai-Restaurant Siam V Steingasse 1

Italian food:21 Osteria Alfredo Dreikönigstrasse 2522 Salerno’s Brückenstrasse 38 (Reservation recommended)23 Stuzzico Kettengasse 1 (take-away pizza)

Arabian food:24 Mahmoud’s V Merianstrasse 325 Sahara V Hauptstrasse 16726 Alte Gundtei V Zwingerstrasse 15A27 Safari V Hauptstrasse 147

Others:28 Restaurant Kilimanjaro Dreikönigstrasse 629 Raja Rani Heidelberg V Friedrichstrasse 15

Fine dining:30 Ristorante Akademie Akademiestrasse 831 Zum Güldenen Schaf Hauptstrasse 11532 Weisse Bock Grosse Mantelgasse 2433 Vinothek Restaurant Oskar Haspelgasse 534 Qube Restaurant Bergheimer Strasse 74 (Reservation recommended)35 Bierbrezel Hauptstrasse 18436 Seppl Hauptstrasse 21337 »Le Coq« Bistro & Restaurant Brückenstrasse 1738 Le Gourmet im Hotel Die Hirschgasse Hirschgasse 3

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Sponsors andExhibitions

We encourage you to visit the exhibitions of some of our sponsors on the �rst �oor ofthe conference venue, see the map on page 12.

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