CURRICULUM VITAE

Daniel Wolf SavinColumbia Astrophysics Laboratory

550 West 120th Street, MC 5247New York, NY 10027

Phone: 1-646-707-4937e-mail: savin@astro.columbia.edu

http://www.astro.columbia.edu/∼savin

Research Theme

• Answer cutting edge questions in astrophysics, planetary science, and solar physics throughastronomical observations and experimental studies studies in atomic, molecular, condensedmatter, and plasma physics.

Education

1994 Ph.D., Harvard University.1987 M.A., Harvard University.1985 B.A., Columbia University, (Magna Cum Laude).

Employment History

07/2018 - present American Museum of Natural History, Div. Phys. Sci., Research Associate.03/2017 - present American Astronomical Society Journals, Science Editor.01/2009 - 05/2009 Columbia University, Adjunct Professor of Astronomy.07/2006 - present Columbia University, Astrophysics Laboratory, Senior Research Scientist.12/2002 - 12/2003 Weizmann Institute of Science, Visiting Scientist.07/2000 - 06/2006 Columbia Univesrity, Astrophysics Laboratory, Research Scientist.09/1996 - 06/2000 Columbia University ,Astrophysics Laboratory, Associate Research Scientist.03/1994 - 08/1996 Univ. California - Berkeley, Space Sci. Lab., Post-Grad. Research Physicist.

Professional Societies

American Association for the Advancement of Science.American Astronomical Society.American Institute of Aeronautics and Astronautics.American Physical Society.International Astronomical Union.Phi Beta Kappa.

Academic Awards

2006 Fellow, American Physical Society.1985 Phi Beta Kappa.1985 Sigma Pi Sigma, Columbia University.

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I. Research Support

Current Grants as Principal Investigator [PI] (Total $4,158,734)

Laboratory Studies of Dissociative Recombination with Cold Molecular Ions for Diffuse Cloud Stud-ies for Ground-Based Studies of Diffuse Clouds

Agency: National Science FoundationDivision: Astronomical SciencesProgram: Astronomy and Astrophysics GrantsEffective: September 2019 - August 2022

Budget: $583,169

Laboratory Studies of Dissociative Recombination with Cold Molecular Ions for Diffuse Cloud Stud-ies by NASA Astrophysics Missions

Agency: National Aeronautics and Space AdministrationDivision: AstrophysicsProgram: Astronomy and Astrophysics Research and AnalysisEffective: April 2019 - March 2022

Budget: $664,963

A Comprehensive Study of Fe L-Shell Absorption in the Interstellar MediumAgency: National Aeronautics and Space AdministrationDivision: AstrophysicsProgram: Astrophysics Data Analysis ProgramEffective: April 2019 - March 2021

Budget: $398,398

The Impact of Solar Wind Ions on the Surface and Exosphere of MercuryAgency: National Aeronautics and Space AdministrationDivision: Planetary ScienceProgram: Solar System WorkingsEffective: February 2018 - January 2021

Budget: $1,078,721

The Impact of Solar Wind Ions on the Surface and Exosphere of MercuryAgency: National Aeronautics and Space AdministrationDivision: Planetary ScienceProgram: Planetary Major EquipmentEffective: February 2018 - January 2021

Budget: $280,000

Fundamental Studies in Basic Plasma Physics: Experimental Studies of Alfven Wave DampingProcesses Relevant to the Solar Corona

Agency: Department of EnergyDivision: Fusion Energy SciencesProgram: Discovery Plasma Science: Plasma Science FrontiersEffective: August 2016 - July 2020

Budget: $575,695

Laboratory measurements of three deuterium substitution reactions important in interstellar chem-istry

Agency: National Science FoundationDivision: Astronomical SciencesProgram: Astronomy and Astrophysics GrantsEffective: July 2016 - June 2020

Budget: $577,788

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Current Grants as Co-PI (Total $418,387)

Understanding Wave Energy Transport Through the Complex Chromosphere and Transition Region(Dr. Michael Hahn, PI)

Agency: National Science FoundationDivision: Atmospheric and Geospace SciencesProgram: Solar-Terrestrial ProgramEffective: May 2019 - April 2022

Budget: $418,387

Current Grants as Co-Investigator [Co-I] (Total $6,066,517)

Effect of Density Fluctuations on Alfven Wave Turbulence in a Coronal Hole (Dr. MahboubehAsgari-Targhi, PI)

Agency: National Aeronautics and Space AdministrationDivision: HeliophysicsProgram: Supporting ResearchEffective: November 2018 - June 2021

Budget: $583,000To Columbia: $297,723

TREX: Toolbox for Research and Exploration (Dr. Amanda Hendrix, PI)Agency: National Aeronautics and Space AdministrationDivision: Planetary ScienceProgram: Solar System Exploration Research Virtual InstituteEffective: August 2017 - May 2022

Budget: $5,483,517To Columbia: $139,600

Completed Grants as PI (Total $11,579,689)

Calibration of Density Diagnostics for Solar Physics Using an Electron Beam Ion TrapAgency: National Aeronautics and Space AdministrationDivision: HeliophysicsProgram: Heliophysics Technology & Instrument Development for ScienceEffective: June 2016 - May 2019

Budget: $755,207

Laboratory Studies of Dissociative Recombination in Interstellar Clouds in Support of the NASAAstrophysics Missions

Agency: National Aeronautics and Space AdministrationDivision: AstrophysicsProgram: Astronomy and Astrophysics Research and AnalysisEffective: June 2015 - May 2018

Budget: $244,532

Analysis of Plumes to Predict Their Signatures in the Inner Heliosphere and Solar Wind: Layingthe Groundwork for Solar Orbiter and Solar Probe Plus

Agency: National Aeronautics and Space AdministrationDivision: HeliophysicsProgram: Living With A StarEffective: December 2014 - November 2017

Budget: $473,837

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Laboratory Measurements of Electron Impact Ionization in Support of the NASA Heliophysics Re-search Program

Agency: National Aeronautics and Space AdministrationDivision: HeliophysicsProgram: Solar & Heliospheric Physics Supporting Research and AnalysisEffective: March 2012 - February 2016

Budget: $602,667

Laboratory Studies of Halogen Chemistry in Interstellar Coulds in Support of the NASA Astro-physics Research Program

Agency: National Aeronautics and Space AdministrationDivision: AstrophysicsProgram: Astronomy and Astrophysics Research and AnalysisEffective: April 2012 - March 2015

Budget: $302,967

Improving Models of Molecular Clouds and Planetary Atmospheres: Dissociative RecombinationMeasurements for Molecular Ions of Astronomical Interest

Agency: National Science FoundationDivision: Astronomical SciencesProgram: Galactic AstronomyEffective: July 2011 - June 2015

Budget: $567,561

SHINE: Observationally Constraining the Physical Processes that Generate the Solar WindAgency: National Science FoundationDivision: Atmospheric and Geospace SciencesProgram: Solar-TerrestrialEffective: April 2011 - March 2015

Budget: $575,454

Development of a Novel Instrument to Study the Cosmic Origins of Organic Chemistry and theCosmo-Chemical Pathway towards LifeAgency: National Science FoundationDivision: Astronomical SciencesProgram: Advanced Technologies and InstrumentationEffective: October 2009 - September 2013

Budget: $1,998,242

Further Measurements of Low Temperature Dielectronic Recombination Rate Coefficients for Pho-toionized Cosmic Plasmas

Agency: National Aeronautics and Space AdministrationDivision: AstrophysicsProgram: Astronomy and Astrophysics Research and AnalysisEffective: April 2009 - March 2014

Budget: $745,201

Laboratory Measurements of Dielectronic Recombination and Electron Impact Ionization in Supportof NASA’s Heliophysics Research Program

Agency: National Aeronautics and Space AdministrationDivision: HeliophysicsProgram: Solar & Heliospheric Physics Supporting Research and AnalysisEffective: January 2009 - December 2012

Budget: $645,938

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Improved Understanding of Molecular Clouds and Emission Line Objects with Laboratory Astro-physics Studies at the Heidelberg Ion Storage Ring

Agency: National Science FoundationDivision: Astronomical SciencesProgram: Galactic AstronomyEffective: July 2008 - June 2011

Budget: $555,882

Low Temperature Dielectronic Recombination Rates for Photoionized Cosmic PlasmasAgency: National Aeronautics and Space AdministrationDivision: AstrophysicsProgram: Astronomy and Physics Research and AnalysisEffective: April 2006 - March 2010

Budget: $482,891

Further Measurements of High Temperature Dielectronic Recombination Rate Coefficients in Sup-port of NASA’s Sun-Earth Connection Program

Agency: National Aeronautics and Space AdministrationDivision: HeliophysicsProgram: Solar & Heliospheric Physics Supporting Research and AnalysisEffective: February 2006 - January 2010

Budget: $536,543

Improved Simulations of Cosmic Plasmas: Measurements and Modeling Thermal Energy ChargeTransfer

Agency: National Science FoundationDivision: Astronomical SciencesProgram: Stellar Astronomy and AstrophysicsEffective: August 2006 - July 2009

Budget: $395,721

Development of a Novel Laboratory Instrument for Studying Gas-Phase Negative Ion ChemistryAgency: National Science FoundationDivision: ChemistryProgram: Chemical InstrumentationEffective: September 2005 - August 2009

Budget: $735,548

Sensitivity of Modeling Cosmic Plasmas to Uncertainties in Atomic and Molecular PhysicsAgency: National Aeronautics and Space AdministrationDivision: AstrophysicsProgram: Astrophysics Theory ProgramEffective: June 2004 - May 2005

Budget: $15,000

Improved Simulations of Cosmic Plasmas: Measurements and Modeling Thermal Energy ChargeTransfer

Agency: National Science FoundationDivision: Astronomical SciencesProgram: Galactic AstronomyEffective: July 2003 - June 2006

Budget: $251,706

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New Low Temperature Dielectronic Recombination Rates for Modeling Photoionized Cosmic Plas-mas

Agency: National Aeronautics and Space AdministrationDivision: AstrophysicsProgram: Space Astrophysics Research and AnalysisEffective: April 2003 - March 2007

Budget: $514,426

Measurements of High Temperature Dielectronic Recombination Rate Coefficients in Support ofNASA’s Sun-Earth Connection Program

Agency: National Aeronautics and Space AdministrationDivision: HeliophysicsProgram: Solar & Heliospheric Physics Supporting Research and AnalysisEffective: February 2003 - January 2007

Budget: $416,537

Unraveling the Physical Conditions in the Solar Atmosphere: Experimental and Theoretical AtomicRates for Ions of Neon and Magnesium

Agency: National Aeronautics and Space AdministrationDivision: HeliophysicsProgram: Solar Physics Research, Analysis, and SuborbitalEffective: May 2000 - April 2004

Budget: $386,206

Measurements, Calculations, and Astrophysical Implications of New Low Temperature DielectronicRecombination Rates for Modeling Photoionized Cosmic Plasmas

Agency: National Aeronautics and Space AdministrationDivision: AstrophysicsProgram: Space Astrophysics Research and AnalysisEffective: February 2000 - January 2004

Budget: $353,040

Level 2 Proposal for Participation in the Chandra Emission Line ProjectAgency: National Aeronautics and Space AdministrationDivision: AstrophysicsProgram: Chandra Emission Line Project (Level 2)Effective: October 1999 - November 2000

Budget: $11,500

Measurement of Dielectronic Recombination for Modeling Astrophysical PlasmasAgency: North Atlantic Treaty OrganizationProgram: International Scientific Exchange ProgrammesEffective: October 1998 - October 2001

Budget: $5,897

Measurement of Dielectronic Recombination for Modeling Astrophysical PlasmasAgency: North Atlantic Treaty OrganizationProgram: International Scientific Exchange ProgrammesEffective: October 1995 - September 1998

Budget: $7,186

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Completed Grants as Co-PI (Total $357,000)

Observational Constraints on Wave Heating of the Corona (Dr. Michael Hahn, PI)Agency: National Science FoundationDivision: Atmospheric and Geospace SciencesProgram: Solar, Heliophysics, and Interplanetary EnvironmentEffective: May 2015 - April 2018

Budget: $357,000

Completed Grants as Co-I (Total $1,139,546)

X-Ray Spectroscopic Laboratory Astrophysics Experiments in Support of the NASA X-Ray Astron-omy Flight Program (Prof. Steven M. Kahn, PI)

Agency: National Aeronautics and Space AdministrationDivision: AstrophysicsProgram: High Energy Astrophysics Supporting Research and TechnologyEffective: February 1997 - May 2000

Budget: $549,546

X-Ray Spectroscopic Laboratory Astrophysics Experiments in Support of the NASA X-Ray Astron-omy Flight Program (Prof. Steven M. Kahn, PI)

Agency: National Aeronautics and Space AdministrationDivision: AstrophysicsProgram: High Energy Astrophysics Supporting Research and TechnologyEffective: November 1994 - June 1998

Budget: $590,000

Completed Grants as Collaborator (Total $2,994,974)

Improved Simulations of Astrophysical Plasmas: Computation of New Atomic Data (Prof. ThomasW. Gorczyca, PI)

Agency: National Aeronautics and Space AdministrationDivision: AstrophysicsProgram: Astronomy and Physics Research and AnalysisEffective: January 2007 - December 2009

Budget: $369,999

Accurate Treatment of Electron-Ion Recombination Rate Coefficients for Solar Physics (Prof. Tho-mas W. Gorczyca, PI)

Agency: National Aeronautics and Space AdministrationDivision: HeliophysicsProgram: Solar & Heliospheric Supporting Research and AnalysisEffective: November 2007 - October 2008

Budget: $20,000

Calculations of High Temperature Dielectronic Recombination Rate Coefficients in Support of NASA’sSun-Earth Connection Program (Prof. Thomas W. Gorczyca, PI)

Agency: National Aeronautics and Space AdministrationDivision: HeliophysicsProgram: Solar & Heliospheric Supporting Research and AnalysisEffective: September 2004 - August 2007

Budget: $469,693

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Laboratory Investigations of Early Universe Chemistry (Prof. Anthony G. Calamai, PI)Agency: National Science FoundationDivision: Astronomical SciencesProgram: Extragalactic Astronomy and CosmologyEffective: June 2004 - May 2007

Budget: $238,432

Improved Simulations of Astrophysical Plasmas: Computation of New Atomic Data (Prof. ThomasW. Gorczyca, PI)

Agency: National Aeronautics and Space AdministrationDivision: AstrophysicsProgram: Astronomy and Physics Research and AnalysisEffective: October 2003 - September 2006

Budget: $439,000

Measurements of Electron Impact Ionization in Support of NASA’s Sun-Earth Connection Program(Dr. Mark E. Bannister, PI)

Agency: National Aeronautics and Space AdministrationDivision: HeliophysicsProgram: Solar & Heliospheric Physics Supporting Research and AnalysisEffective: October 2003 - September 2006

Budget: $427,850

Improved Electron Impact Ionization Data for Modeling Cosmic Plasmas: New Measurements andTheoretical Calculations (Dr. Mark E. Bannister, PI)

Agency: National Aeronautics and Space AdministrationDivision: AstrophysicsProgram: Astronomy and Physics Research and AnalysisEffective: November 2003 - October 2006

Budget: $380,000

Measurements and Astrophysical Implications of Charge Transfer at Thermal Energies (Dr. CharlesC. Havener, PI)

Agency: National Aeronautics and Space AdministrationDivision: AstrophysicsProgram: Space Astrophysics Research and AnalysisEffective: April 2002 - March 2005

Budget: $370,000

Improved Simulations of Astrophysical Plasmas: Computation of New Atomic Data (Prof. ThomasW. Gorczyca, PI)

Agency: National Aeronautics and Space AdministrationDivision: AstrophysicsProgram: Space Astrophysics Research and AnalysisEffective: March 2001 - February 2004

Budget: $230,000

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II. Educational and Outreach Activities

Courses Taught

Spring 2009 Stellar Structure and Evolution (Astronomy C3101y), Columbia University,upper level undergraduate class.

Undergraduates Mentored

18. Rebecca Carmack (Physics and Planetary Science, Purdue University, Summer 2019).17. Aalayah Spencer (Astrophysics, Michigan State University, Summer 2018).16. Taylor Copeland (Physics & Mathematics, Connecticut College, Summer 2017).15. Chris Ciccarino (Physics & Chemistry, Seaton Hall Univ., Summer 2016 - Summer 2017).14. Roshan Ganesh Bhaskar (Chemistry, Columbia University, Spring 2016 - Spring 2017).13. Camilla Buzard (Chemistry, Barnard College, Spring 2015 - Fall 2015).12. Shreyas Vissapragada (Astronomy & Comp. Sci., Columbia University, Fall 2014 - Spring 2017).11. Tze Ping Goh (Astronomy, Columbia University, Fall 2014 - Spring 2015).10. David Wych (Physics and Mathematics, Claremont McKenna College, Summer 2014).9. Miguel Gordino (Physics, Universite Paris-Sud, Summer 2014).8. Jose Luis Montelongo (Astronomy, Columbia University, Fall 2011 - Spring 2012).7. Ryan Mandelbaum (Physics, Columbia University, Summer 2010).6. Simone Hock (Physics, University of Tubigen, Germany, Summer 2009).5. Benjamin L. Schmitt (Physics and Astronomy, University of Rochester, Summer 2008).4. Warit Mitthumsiri (Physics, Columbia University, Summer 2004 - Spring 2007).3. Hillel Rubinstein (Physics, Weizmann Institute of Science, Rehovot, Israel, Summer 2003).2. Adam Shapiro (Physics, Columbia University, Spring 1999).1. Alex Olivas (Physics, University of California, Berkeley, Fall 1994).

Graduate Students Mentored

1. Anthony Mroczkowski (Astronomy, Columbia University, Second Year Project, 2001 - 2002).

Ph.D. Thesis Defense Committees

2. Xabier Sarasola Martin (Applied Physics and Applied Mathematics, Columbia Univ., 05/2011).1. Michael R. Fogle, Jr. (Physics, Stockholm University, 04/2004).

Postdoctoral Scientists Mentored

22. Sayak Bose (Columbia University, 04/2017 - 06/2019).21. Thusitha Arthanayaka (Columbia University, 01/2017 -12/2018).20. Kyle Bowen (Columbia University, 01/2017 - present).19. Pierre-Michel Hillenbrand (Columbia University, 10/2016 - 03/2019).18. Chloe Guennou (Columbia University, 01/2014 -12/2014).17. Nathalie de Ruette (Columbia University, 09/2012 - 08/2014).16. Brendan O’Dwyer (Columbia University, 07/2012 - 12/2012).

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15. Julia Stutzel (Columbia University, 07/2011 - 07/2012).14. Mauricio Garrido (Columbia University, 07/2010 - 07/2011).13. Aodh O’Connor (Columbia University, 04/2010 - 03/2013).12. Duck-Hee Kwon (visiting from Korea Atomic Energy Research Institute, 09/2009 - 01/2011).11. Oldrich Novotny (Columbia University, 07/2009 - 08/2011).10. Michael Hahn (Columbia University, 05/2009 - 05/2012).9. Kenneth A. Miller (Columbia University, 11/2008 - 10/2011).8. Julian Berengut (visiting from University of New South Wales, 09/2007 - 04/2008)7. Michael Lestinsky (Columbia University, 07/2007 - 06/2010).6. Holger Kreckel (Columbia University, 03/2007 - 01/2009).5. Hjalmar Bruhns (Columbia University, 07/2006 - 12/2008).4. Bohdan Seredyuk (Columbia University, 02/2006 - 12/2007).3. Paul Bryans (Columbia University, 10/2005 - 09/2008).2. Dragan Lukic (Columbia University, 02/2005 - 08/2007).1. Michael Schnell (Columbia University, 04/2004 - 03/2006).

Associate Research Scientists Mentored

4. Ruitian Zhang (Columbia University, 10/2018 - 10/2019).3. Michael Hahn (Columbia University, 05/2012 - 06/2017).2. Kenneth A. Miller (Columbia University, 11/2011 - 02/2017).1. Oldrich Novotny (Columbia University, 08/2011 - 12/2015).

High School Science Teacher Fellows Mentored

2. Bruce Zeller (New Rochelle High School, New Rochelle, NY, Summers 2011 and 2012).1. Alia Davis (Curtis High School, Staten Island, NY, Summers 2009 and 2010).

High School Students Mentored

3. Viktoriya Molchanova (Tarrytown Unified School District, Sleepy Hollow, NY, Summer 2014).2. Nikhil Kunapuli (Bridgewater-Raritan High School, Bridgewater, NJ, Summer 2012).1. Jesse Voremberg (Heschel High School, New York, NY, Summer 2010).

Awards to Mentees for Research in the Savin Group

2019 Shreyas Vissapragada, Paul & Daisy Soros Fellowship for New Americans.2019 Shreyas Vissapragada, National Science Foundation Graduate Research Fellowship.2018 Pierre-Michel Hillenbrand, Deutsche Forschungsgemeinschaft (German Research Foundation)

Postdoctoral Research Fellowship.2017 Shreyas Vissapragada, National Science Foundation Graduate Research Fellowship Program,

Honorable Mention.2017 Shreyas Vissapragada, American Astronomical Society (AAS) Chambliss Astronomy Achieve-

ment Undergraduate Student Award, Honorable Mention.2016 Shreyas Vissapragada, Universities Space Research Association (USRA) James B. Willett

Educational Memorial Scholarship.

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2016 Shreyas Vissapragada, Barry Goldwater Scholarship.2012 Michael Hahn, New York Academy of Sciences Blavatnik Award for Young Scientists.2011 Alia Davis, Sloan Award for Excellence in Teaching Science and Mathematics.2007 Hjalmar Bruhns, Deutscher Akademischer Austauschdienst (German Academic Exchange Ser-

vice) Postdoctoral Fellowship2006 Hjalmar Bruhns, Deutscher Akademischer Austauschdienst (German Academic Exchange Ser-

vice) Postdoctoral Fellowship

Lectures for the General Public and High Schools

Amateur Astronomers Association of New York, New York, NY, 16 May 2018.Amateur Astronomers Association of New York, New York, NY, 02 Feb. 2018.Westport Astronomical Society, Westport, CT, 19 Sep. 2017.Columbia University, Dept. of Astronomy Public Outreach Lecture, New York, NY, 04 Nov. 2016.Mid-Hudson Astronomical Association, New Paltz, NY, 19 Jul. 2016.Westchester Amateur Astronomers, Pleasantville, NY, 06 May 2016.Columbia University, Nevis Laboratories, Science-on-Hudson Series, Irvington, NY, 11 Feb. 2016.Columbia University School of General Studies, New York, NY, 11 Nov. 2015.South Windsor High School, South Windsor, CT, 02 Mar. 2015.Columbia Univ., Seminar on Knowledge, Technol. & Social Systems, New York, NY, 26 Nov. 2011.State University of New York, Astronomy Lecture and Star Gazing, Newburgh, NY, 23 Sep. 2011.Picnic Cafe, Cafe Science, Manhattan, NY, 08 Aug. 2011.Hudson River Museum, Science Sunday, Yonkers, NY, 27 Mar. 2011.New Rochelle High School Research Class, New Rochelle, NY, 19 Jan. 2011.Columbia University, Dept. of Astronomy Public Outreach Lecture, New York, NY, 03 Dec. 2010.Curtis High School, Jr. & Sr. Physics Classes of Ms. Alia Davis, Staten Island, NY, 02 Oct. 2009.

Science Articles for the General Public

“How to Survive Doomsday”, M. Hahn and D. W. Savin, Nautilus, Issue 36, Chapter 1, May 5,2016.

“Before There Were Stars”, D. W. Savin, Nautilus, Issue 10, Chapter 4, Feb. 27, 2014.“Cosmic Code Breakers”, D. W. Savin, B. J. McCall, and K. Kirby, Australian Sky & Telescope,

Aug./Sep. 2009, p. 36.“Fare Astrophysica in Laboratorio (Doing Astrophysics in the Laboratory),” D. W. Savin, B. J.

McCall, and K. Kirby, Le Stelle (The Stars), Luglio 2007 (Jul. 2007), p. 40, (in Italian).“Kosmoische Kryptologie (Cosmic Cryptogrophy),” D. W. Savin, B. J. McCall, and K. Kirby,

Astronomie Heute (Astronomy Today), Juni 2007 (Jun. 2007), p. 28, (in German).“Cosmic Codebreakers: Unraveling the Mysteries of the Universe,” D. W. Savin, B. J. McCall,

and K. Kirby, Sky & Telescope, Mar. 2007, p. 33.

Press Interviews

“Ingenious: Daniel Wolf Savin”, Interview by Kevin Berger, Nautilus, Issue 010, Chapter 4, Feb.27, 2014: http://astroshow.blogspot.com/2007/12/interview-with-dr-savin.html

“Columbia University’s Daniel Wolf Savin describes the chemistry underlying early star formation,”National Science Foundation Press Conference, Jun. 30, 2010.

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On “You’d Prefer an Astronaut,” Vassar College Radio:http://astroshow.blogspot.com/2007/12/interview-with-dr-savin.html

Selected Press Coverage

(A somewhat more comprehensive listing can be found at:http://user.astro.columbia.edu/ savin/media.html#press)

A Visit to Nevis Labs with Daniel Wolf SavinEyepiece: Journal of the Amateur Astronomers Association of New York, 01 Mar. 2019https://www.aaa.org/eyepiece/a-visit-to-nevis-labs-with-daniel-wolf-savin/

Merging Beams Generate the Ingredients of LifePhysics 8, 62; 02 Jul. 2015https://physics.aps.org/articles/v8/62

Whose Galaxy Is It?Columbia Magazine, Winter 2014-15

Astrophysicists Tackle the Sun and One of Physics Biggest Unsolved ProblemsColumbia News, 15 Nov. 2013

It’s hot...super hotNSF Discoveries, 11 Nov. 2013

Astronomers find clues to decades-long coronal heating mysteryAstronomy Magazine, 17 Oct. 2013http://www.astronomy.com/news/2013/10/

astronomers-find-clues-to-decades-long-coronal-heating-mystery

L’enigme de la couronne solaire bientot resolueLe Temps (Switzerland), 24 Jul. 2013https://www.letemps.ch/sciences/2013/07/23/

enigme-couronne-solaire-bientot-resolue

Speedy tsunami seen on Sun’s surfaceBBC (United Kingdom), 11 Jul. 2013http://www.bbc.com/news/science-environment-23241896

Mystery behind Sun’s coronal heating unveiledIrish Sun (Ireland), 10 Jul. 2013

Mystery behind Sun’s coronal heating unveiledYahoo!News India, 10 Jul. 2013https://in.news.yahoo.com/

mystery-behind-suns-coronal-heating-unveiled-100337120.html

Waves Might Heat Solar AtmosphereSky & Telescope 03 Jul. 2012http://www.skyandtelescope.com/astronomy-news/

waves-might-heat-solar-atmosphere/

H2 Generation in the Early Universe Governs the Formation of the First StarsAngewandte Chemie International Edition, 08 Feb. 2011http://onlinelibrary.wiley.com/doi/10.1002/anie.201005920/abstract

Researchers shed light on birth of first starsAstronomy, 08 Jul. 2010

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http://www.astronomy.com/news/2010/07/

researchers-shed-light-on-birth-of-the-first-stars

Conditions for universe’s first stars recreated: Columbia University researchers duplicate chemicalreaction in labSpace on MSNBC.com, 01 Jul. 2010http://www.nbcnews.com/id/38046196/ns/technology and science-space/#.Wh3THfZry90

To Cool or Not to CoolScience, 329, 45 (2010)http://science.sciencemag.org/content/329/5987/45.summary

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III. Publications and Invited Talks

Web of Science Publication Statistics

• 184 publications.

• Over 3194 citations.

• h-index of 32.

The most up-to-date data are available from http://publons.com/researcher/2749422/daniel-w-savin/

Books Edited

1. Spectroscopic Challenges of Photoionized Plasmas, ed. G. J. Ferland and D. W. Savin,(Astronomical Society of the Pacific, Provo, Utah, 2001).

Book Chapters

2. “Negative Ion Chemistry in the Early Universe”,H. Kreckel and D. W. Savin,Laboratory Astrochemistry: From Molecules through Nanoparticles to Grains, ed. S. Schlem-mer, H. Mutschke, and Th. Giesen, (Wiley, Weinheim, Germany, 2015), pp. 205-228.

1. “Atomic, Molecular, and Optical Physics in the Early Universe: From Recombination toReionization”,S. C. O. Glover, J. Chluba, S. R. Furlanetto, J. R. Pritchard, and D. W. Savin,Advances in Atomic, Molecular, and Optical Physics, vol. 63, ed. P. R. Berman, E. Arimondo,and C. C. Lin, (Elsevier, Philadelphia, 2014), pp. 135-270.

Patents

1. “Ion deflector for two-dimensional control of ion beam cross sectional spread”,H. Kreckel, H. Bruhns, and D. W. Savin,United States Patent No. 8,309,936. Issued November 13, 2012.

Refereed Publications

120. “Laboratory Calibration of Fe xii-xiv Line-Intensity Ratios for Electron Density Diagnostics”,T. Arthanayaka, P. Beiersdorfer, G. V. Brown, M.-F. Gu, M. Hahn, N. Hell, T. Lockard, andD. W. Savin,Astrophys. J., submitted.

119. “Near L-Edge Single and Multiple Photoionization of Triply Charged Iron Ions”,R. Beerwerth, T. Buhr, A. Perry-Sassmannhausen, S. O. Stock, S. Bari, K. Holste, A. L.David Kilcoyne, S. Reinwardt, S. Ricz, D. W. Savin, K. Schuert, M. Martins, A. Muller, S.

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Fritzsche, and S. Schippers,Astrophys. J., submitted.

118. “Measured Reduction in Alfven Wave Energy Propagating through Longitudinal GradientsScaled to Match Solar Coronal Holes”,S. Bose, T. Carter, W. Gekelman, M. Hahn, S. Tripathi, S. Vincena, and D. W. Savin,Astrophys. J., accepted.

117. “Roadmap on photonic, electronic and atomic collision physics: II. Electron and antimatterinteractions”,S. Schippers, E. Sokell, F. Aumayr, H. Sadeghpour, K. Ueda, I. Bray, K. Bartschat, A.Murray, J. Tennyson, A. Dorn, M. Yamazaki, M. Takahashi, N. Mason, O. Novotny, A. Wolf,L. Sanche, M. Centurion, Y. Yamazaki, G. Laricchia, C. M. Surko, J. Sullivan, G. Gribakin,D. W. Savin, Y. Ralchenko, R. Hoekstra, and G. O’Sullivan,J. Phys. B, 52 171002 (2019).

116. “Experimental and Theoretical Studies of the Isotope Exchange Reaction D + H+3 → H2D

++H”,P.-M. Hillenbrand, K. P. Bowen, J. Lievin, X. Urbain, and D. W. Savin,Astrophys. J., 877, 38 (2019).

115. “Electron-impact Ionization of Atomic Nitrogen”,C. J. Ciccarino and D. W. Savin,J. Thermophys. Heat Transfer, 33, 154 (2019).

114. “Measurements of the Effective Electron Density in an Electron Beam Ion Trap using ExtremeUltraviolet Spectra and Optical Imaging”,T. P. Arthanayaka, P. Beiersdorfer, G. V. Brown, M. Hahn, N. Hell, T. E. Lockard, and D.W. Savin,Rev. Sci. Instrum., 89, 10E119 (2018).

113. “Dissociative Recombination Measurements of Chloronium Ions (D2Cl+) using an Ion StorageRing”,O. Novotny, H. Buhr, W. Geppert, M. Grieser, M. Hamberg, C. Krantz, M. B. Mendes, A.Petrignani, R. Repnow, D. W. Savin, D. Schwalm, J. Stutzel, and A. Wolf,Astrophys. J., 862, 166 (2018).

112. “Density Fluctuations in a Polar Coronal Hole”,M. Hahn, E. D’Huys, and D. W. Savin,Astrophys. J., 860, 34 (2018).

111. “Spectroscopic Measurements of the Ion Velocity Distributions at the Base of the Fast SolarWind”,N. L. S. Jeffrey, M. Hahn, D. W. Savin, and L. Fletcher,Astrophys. J. Lett., 855, L13 (2018).

110. “Electron-Impact Multiple Ionization Cross Section for Atoms and Ions of Helium throughZinc”,M. Hahn, A. Muller, and D. W. Savin,Astrophys. J., 850, 122 (2017).

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109. “Near L-Edge Single and Multiple Photoionization of Singly Charged Iron Ions”,S. Schippers, M. Martins, R. Beerwerth, S. Bari, K. Holste, K. Schubert, J. Viefhaus, D. W.Savin, S. Fritzsche, and A. Muller,Astrophys. J., 849, 5 (2017).

108 “On the Energetics of the HCO+ + C→ CH+ + CO Reaction and some Astrochemical Im-plications”,D. W. Savin, R. G. Bhaskar, S. Vissapragada, and X. Urbain,Astrophys. J., 844, 154 (2017).

107. “Recommended Thermal Rate Coefficients for the C + H+3 Reaction and Some Astrochemical

Implications”,S. Vissapragada, C. F. Buzard, K. A. Miller, A. P. O’Connor, N. de Ruette, X. Urbain, andD. W. Savin,Astrophys. J., 832, 31 (2016).

106. “Inferring the Coronal Density Irregularity from EUV Spectra”,M. Hahn and D. W. Savin,Astrophys. J. 829, 42 (2016).

105. “Recombination of W19+ ions with electrons: Absolute rate coefficients from a storage-ringexperiment and from theoretical calculations”,N. R. Badnell, K. Spruck, C. Krantz, O. Novotn’y, A. Becker, D. Bernhardt, M. Grieser, M.Hahn, R. Repnow, D. W. Savin, A. Wolf, A. Muller, and S. Schippers,Phys. Rev. A, 93, 052703 (2016).

104. “Storage Ring Cross Section Measurements for Electron Impact Ionization of Fe8+”,M. Hahn, A. Becker, D. Bernhard, M. Grieser, C. Krantz, M. Lestinsky, A. Muller, O.Novotny, M. Pindzola, R. Repnow, S. Schippers, K. Spruck, A. Wolf, and D. W. Savin,J. Phys. B, 49, 084006 (2016).

103. “Absolute rate coefficients for photorecombination of berylliumlike and boronlike silicon ions”,D. Bernhardt, A. Becker, C. Brandau, M. Grieser, M. Hahn, C. Krantz, M. Lestinsky, O.Novotny, R. Repnow, D. W. Savin, K. Spruck, A. Wolf, A. Muuller, and S. Schippers,J. Phys. B, 49, 074004 (2016).

102. “Innershell Photoionization Studies of Neutral Atomic Nitrogen”,W. C. Stolte, V. Jonauskas, D. W. Lindle, M. M. Sant’Anna, and D. W. Savin,Astrophys. J., 818, 149 (2016).

101. “Merged-beams Reaction Studies of O + H+3 ”,

N. de Ruette, K. A. Miller, A. P. O’Connor, X. Urbain, C. F. Buzard, S. Vissapragada, andD. W. Savin,Astrophys. J., 816, 31 (2016).

100. “Generation of neutral atomic beams utilizing photodetachment by high power diode laserstacks”,A. O’Connor, F. Grussie, X. Urbain, D. W. Savin, K. A. Miller, N. de Ruette, J. Stutzel,T. Koenning, H. Bruhns, and H. Kreckel,Rev. Sci. Instrum., 86, 113306 (2015).

16

99. “Storage Ring Cross Section Measurements for Electron Impact Ionization of Fe7+”,M. Hahn, A. Becker, D. Bernhardt, M. Grieser, C. Krantz, M. Lestinsky, A. Muller, O.Novotny, R. Repnow, S. Schippers, K. Spruck, A. Wolf, and D. W. Savin,Astrophys. J., 813, 16 (2015).

98. “Cryogenic micro-calorimeters for mass spectrometric identification of neutral molecules andmolecular fragments”,O. Novotny, S. Allgeier, C. Enss, A. Fleischmann, L. Gamer, D. Hengstler, S. Kempf, C.Krantz, A. Pabinger, C. Pies, D. W. Savin, D Schwalm, and A. Wolf,J. Appl. Phys., 118, 104503 (2015).

97. “A Simple Method for Modeling Collision Processes in Plasmas with a Kappa Energy Distri-bution”,M. Hahn and D. W. Savin,Astrophys. J., 809, 178 (2015).

96. “Reaction Studies of Neutral Atomic C with H+3 using a Merged-Beams Apparatus”,

A. P. O’Connor, X. Urbain, J. Stutzel, K. A. Miller, N. de Ruette, M. Garrido, and D. W.Savin,Astrophys. J. Suppl. Ser., 219, 6 (2015).

95. “Relative Abundance Measurements in Plumes and Interplumes”,C. Guennou, M. Hahn, and D. W. Savin,Astrophys. J., 807, 145 (2015).

94. “Influence of Electron-Impact Multiple Ionization on Equilibrium and Dynamic Charge StateDistributions: A Case Study Using Iron”,M. Hahn and D. W. Savin,Astrophys. J., 800, 68, (2015).

93. “Evidence for Wave Heating of the Quiet Sun Corona”,M. Hahn and D. W. Savin,Astrophys. J., 795, 111 (2014).

92. “Recombination of W18+ ions with electrons: Absolute rate coefficients from a storage-ringexperiment and from theoretical calculations”,K. Spruck, N. R. Badnell, C. Krantz, O. Novotny, A. Becker, D. Bernhardt, M. Grieser, M.Hahn, R. Repnow, D. W. Savin, A. Wolf, A. Muller, and S. Schippers,Phys. Rev. A., 90, 032715 (2014).

91. “Dissociative recombination measurements of NH+ using an ion storage ring”,O. Novotny, M. Berg, D. Bing, H. Buhr, W. Geppert, M. Grieser, F. Grussie, C. Krantz,M.B. Mendes, C. Nordhorn, R. Repnow, D. Schwalm, B. Yang, A. Wolf, and D. W. Savin,Astrophys. J., 792, 132 (2014).

90. “Absolute rate coeffcients for photorecombination and electron-impact ionization of magne-sium-like iron ions from measurements at a heavy-ion storage ring”,D. Bernhardt, A. Becker, M. Grieser, M. Hahn, C. Krantz, M. Lestinsky, O. Novotny, R.Repnow, D. W. Savin, K. Spruck, A. Wolf, A. Muller, and S. Schippers,Phys. Rev. A, 90, 012702 (2014).

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89. “Electron-Ion Recombination of Fe12+ forming Fe11+: Laboratory Measurements and Theo-retical Calculations”,M. Hahn, N. R. Badnell, M. Grieser, C. Krantz, M. Lestinsky, A. Muller, O. Novotny, R.Repnow, S. Schippers, A. Wolf, and D. W. Savin,Astrophys. J., 788, 46 (2014).

88. “Electron-Impact Ionization of P-like Ions Forming Si-like Ions”,D.-H. Kwon and D. W. Savin,Astrophys. J., 784, 13 (2014).

87. “Exploring high-energy doubly excited states of NH by dissociative recombination of NH+”,B. Yang, O. Novotny, C. Krantz, H. Buhr, M. Mendes, C. Nordhorn, W. D. Geppert, M.Grieser, R. Repnow, M. Berg, D. Bing, C. Domesle, F. Grussie, D. W. Savin, D. Schwalm,X.-H. Cai, and A. Wolf,J. Phys. B, 47, 035201 (2014).

86. “Dissociative Recombination Measurements of HCl+ using an Ion Storage Ring”,O. Novotny, A. Becker, H. Buhr, C. Domesle, W. Geppert, M. Grieser, C. Krantz, H. Kreckel,R. Repnow, D. Schwalm, K. Spruck, J. Stutzel, B. Yang, A. Wolf, and D. W. Savin,Astrophys. J., 777, 54 (2013). Erratum: 795, 176 (2014). Erratum: 810, 169 (2015).

85. “Observational Qualification of the Energy Dissipated by Alfven Waves in a Polar CoronalHole: Evidence that Waves Drive the Fast Solar Wind”,M. Hahn and D. W. Savin,Astrophys. J., 776, 78 (2013).

84. “Storage Ring Cross Section Measurements for Electron Impact Single and Double Ionizationof Fe13+ and Single Ionization of Fe16+ and Fe17+”,M. Hahn, A. Becker, D. Bernhardt, M. Grieser, C. Krantz, M. Lestinsky, A. Muller, O.Novotny, R. Repnow, S. Schippers, K. Spruck, A. Wolf, and D. W. Savin,Astrophys. J., 767, 47 (2013).

83. “Measurements of Anisotropic Ion Temperatures, Non-Thermal Velocities, and Doppler Shiftsin a Coronal Hole”,M. Hahn and D. W. Savin,Astrophys. J., 763, 106 (2013).

82. “Storage Ring Cross Section Measurements for Electron Impact Single and Double Ionizationof Fe9+ and Single Ionization of Fe10+”,M. Hahn, A. Becker, M. Grieser, C. Krantz, M. Lestinsky, A. Muller, O. Novotny, R. Repnow,S. Schippers, K. Spruck, A. Wolf, and D. W. Savin,Astrophys. J., 760, 80 (2012).

81. “Isotope effect for associative detachment: H(D)− + H(D)→ H2(D2) + e−”,K. A. Miller, H. Bruhns, M. Cızek, J. Eliasek, R. Cabrera-Trujillo, H. Kreckel, A. P. O’Connor,X. Urbain, and D. W. Savin,Phys. Rev. A, 86, 032714 (2012).

80. “Electron-Ion Recombination of Mg6+ forming Mg5+ and of Mg7+ forming Mg6+: LaboratoryMeasurements and Theoretical Calculations”,M. Lestinsky, N. R. Badnell, D. Bernhardt, D. Bing, M. Grieser, M. Hahn, J. Hoffman, B.

18

Jordan-Thaden, C. Krantz, O. Novotny, D. A. Orlov, R. Rempow, A. Shornikov, A. Muller,S. Schippers, A. Wolf and D. W. Savin,Astrophys. J., 758, 40 (2012).

79. “Theoretical electron-impact-ionization cross section for Fe11+ forming Fe12+”,D.-H. Kwon and D. W. Savin,Phys. Rev. A, 86, 022701 (2012).

78. “Electron-Ion Recombination of Fe xii forming Fe xi: Laboratory Measurements and Theo-retical Calculations”,O. Novotny, N. R. Badnell, D. Bernhard, M. Grieser, M. Hahn, C. Krantz, M. Lestinsky, A.Muller, R. Repnow, S. Schippers, A. Wolf, and D. W. Savin,Astrophys. J., 753, 57 (2012).

77. “Evidence of Wave Damping at Low Heights in a Polar Coronal Hole”,M. Hahn, E. Landi, and D. W. Savin,Astrophys. J., 753, 36 (2012).

76. “Storage ring at HIE-ISOLDE: Technical design report”,M. Grieser et al. (130 co-authors),Eur. Phys. J. Special Topics, 207, 1 (2012).

75. “Electron Impact Ionization Measurements using Hyperfine-Assisted State Preparation ofGround-State Beryllium-like Sulfur”,M. Hahn, D. Bernhardt, M. Grieser, C. Krantz, M. Lestinsky, A. Muller, O. Novotny, R.Repnow, S. Schippers, A. Wolf, and D. W. Savin,Phys. Rev. A, 85, 042713 (2012).

74. “The Impact of Recent Advances in Laboratory Astrophysics on our Understanding of theCosmos”,D. W. Savin, N. S. Brickhouse, J. J. Cowan, R. P. Drake, S. R. Federman, G. J. Ferland,A. Frank, M. S. Gudipati, W. C. Haxton, E. Herbst, S. Profumo, F. Salama, L. M. Ziurysand E. G. Zweibel,Rep. Prog. Phys., 75, 036901 (2012).

73. “Storage-ring measurement of the hyperfine-induced 2s2p 3P0 → 2s2 1S0 transition rate inberyllium-like sulfur”,S. Schippers, D. Bernhardt, A. Muller, M. Lestinsky, M. Hahn, O. Novotny, D. W. Savin,M. Grieser, C. Krantz, R. Repnow, and A. Wolf,Phys. Rev. A, 85, 012513 (2012).

72. “Associative detachment of H− + H→ H2 + e−”,K. A. Miller, H. Bruhns, J. Eliasek, M. Cızek, H. Kreckel, X. Urbain, and D. W. Savin,Phys. Rev. A, 84, 052709 (2011).

71. “Differential Emission Measure Analysis of a Polar Coronal Hole During the Solar Minimumin 2007”,M. Hahn, E. Landi, and D. W. Savin,Astrophys. J., 736, 101 (2011).

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70. “Storage Ring Cross Section Measurements for Electron Impact Ionization of Fe12+ FormingFe13+ and Fe14+”,M. Hahn, M. Grieser, C. Krantz, M. Lestinsky, A. Muller, O. Novotny, R. Repnow, S. Schip-pers, A. Wolf and D. W. Savin,Astrophys. J., 735, 105 (2011). Addendum: Astrophys. J. 761, 79 (2012).

69. “Effects of Configuration Interaction for Dielectronic Recombination of Na-like Ions FormingMg-like Ions”,D.-H. Kwon and D. W. Savin,Astrophys. J., 734, 2 (2011).

68. “Storage Ring Cross Section Measurements for Electron Impact Ionization of Fe11+ FormingFe12+ and Fe13+”,M. Hahn, D. Bernhardt, M. Grieser, C. Krantz, M. Lestinsky, A. Muller, O. Novotny, R.Repnow, S. Schippers, A. Wolf, and D. W. Savin,Astrophys. J., 729, 76 (2011). Addendum: Astrophys. J., 761, 78 (2012).

67. “Dielectronic recombination of xenonlike tungsten ions”,S. Schippers, D. Bernhardt, A. Muller, C. Krantz, M. Grieser, R. Repnow, A. Wolf, M. Hahn,O. Novotny, and D. W. Savin,Phys. Rev. A, 83, 012711 (2011).

66. “Fe15+ dielectronic recombination and the effects of configuration interaction between reso-nances with different captured electron principal quantum number”,D.-H. Kwon and D. W. Savin,Phys. Rev. A, 83, 012701 (2011).

65. “Dielectronic recombination data for astrophysical applications: Plasma rate coefficients forFeq+ (q = 7− 10, 13− 22) and Ni25+ ions from storage-ring experiments”,S. Schippers, M. Lestinsky, A. Muller, D. W. Savin, E. Schmitt, and A. Wolf,Int. Rev. At. Phys., 1, 109 (2010).

64. “Properties of a Polar Coronal Hole During the Solar Minimum in 2007”,M. Hahn, P. Bryans, E. Landi, M. P. Miralles, and D. W. Savin,Astophys. J., 725, 774 (2010).

63. “Absolute energy-resolved measurements of the H− + H → H2 + e− associative detachmentreaction using a merged-beam apparatus”,H. Bruhns, H. Kreckel, K. A. Miller, X. Urban, and D. W. Savin,Phys. Rev. A, 82, 042708 (2010).

62. “Experimental Results for H2 Formation from H− and H and Implications for First StarFormation”,H. Kreckel, H. Bruhns, M. Cızek, S. C. O. Glover, K. A. Miller, X. Urbain, and D. W. Savin,Science, 329, 69 (2010).

61. “A simple double-focusing electrostatic ion beam deflector”,H. Kreckel, H. Bruhns, K. A. Miller, E. Wahlin, A. Davis, S. Hochk, and D. W. Savin,Rev. Sci. Instrum., 81, 063304 (2010).

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60. “Storage Ring Measurements of Electron Impact Ionization for Mg7+ forming Mg8+”,M. Hahn, D. Bernhardt, M. Lestinsky, A. Muller, O. Novotny, S. Schippers, A. Wolf, and D.W. Savin,Astrophys. J., 712, 1166 (2010). Addendum: Astrophys. J., 761, 77 (2012).

59. “A novel merged beams apparatus to study anion-neutral reactions”,H. Bruhns, H. Kreckel, K. Miller, M. Lestinsky, B. Seredyuk, W. Mitthumsiri, B. L. Schmitt,M. Schnell, X. Urbain, M. L. Rappaport, C. C. Havener, and D. W. Savin,Rev. Sci. Instrum., 81, 013112 (2010).

58. “Deriving the Coronal Hole Electron Temperature: Electron Density Dependent Ioniza-tion/Recombination Considerations”,J. G. Doyle, S. Chapman, P. Bryans, D. Perez-Suarez, A. Singh, H. Summers, and D. W.Savin,Res. Astron. Astrophys., 10, 91 (2010).

57. “Electron-ion Recombination of Fe x forming Fe ix and of Fe xi forming Fe x: LaboratoryMeasurements and Theoretical Calculations”,M. Lestinsky, N. R. Badnell, D. Bernhardt, M. Grieser, J. Hoffmann D. V. Lukic, A. Muller,D. A. Orlov, R. Repnow, D. W. Savin, E. W. Schmidt, M. Schnell, S. Schippers, A. Wolfand D. Yu,Astrophysic. J., 698, 648 (2009).

56. “Is H+3 cooling ever important in primordial gas?”,

S. C. O. Glover and D. W. Savin,Mon. Not. R. Astron. Soc., 393, 911 (2009).

55. “Molecular Cloud Chemistry and the Importance of Dielectronic Recombination”,P. Bryans, H. Kreckel, E. Roueff, V. Wakelam, and D. W. Savin,Astrophys. J., 694, 286 (2009).

54. “A New Approach to Analyzing Solar Coronal Spectra and Updated Collisional IonizationEquilibrium Calculations. II. Updated Ionization Rate Coefficients”,P. Bryans, E. Landi, and D. W. Savin,Astrophys. J., 691, 1540 (2009).

53. “Electron-ion recombination for Fe viii forming Fe vii and Fe ix forming Fe viii: measure-ments and theory”,E. W. Schmidt, S. Schippers, D. Bernhardt, A. Muller, J. Hoffmann, M. Lestinsky, D. A.Orlov, A. Wolf, D. V. Lukic, D. W. Savin, and N. R. Badnell,Astron. Astrophys., 492, 265 (2008).

52. “Low-energy charge transfer for collisions of Si3+ with atomic hydrogen”,H. Bruhns, H. Kreckel, D. W. Savin, D. G. Seely and C. C. Havener,Phys. Rev. A, 77, 064702 (2008).

51. “Electron-Impact Ionization of Be-like C iii, N iv, and O v”,M. Fogle, E. M. Bahati, M. E. Bannister, C. R. Vane, S. D. Loch, M. S. Pindzola, C. P.Ballance, R. D. Thomas, V. Zhaunerchyk, P. Bryans, W. Mitthumsiri, and D. W. Savin,Astrophys. J. Suppl. Ser., 175, 543 (2008).

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50. “Orbital sensitivity in Mg2+ dielectronic recombination”,J. Fu, T. W. Gorczyca, D. Nikolic, N. R. Badnell, D. W. Savin, and M. F. Gu,Phys. Rev. A, 77, 032713 (2008).

49. “Rotating Dual-Wire Beam Profile Monitor Optimized for use in Merged-Beams Experi-ments”,D. G. Seely, H. Bruhns, D. W. Savin, T. J. Kvale, E. Galutschek, H. Aliabadi and C. C.Havener,Nucl. Instrum. Methods A, 585, 69 (2008).

48. “Electron-Ion Recombination of Si iv forming Si iii: Storage-Ring Measurement and Multi-configuration Dirac-Fock Calculations”,E. W. Schmidt, D. Bernhardt, A. Muller, S. Schippers, S. Fritzsche, J. Hoffmann, A. S. Jaro-shevich, C. Krantz, M. Lestinsky, D. A. Orlov, A. Wolf, D. Lukic, and D. W. Savin,Phys. Rev. A, 76, 032717 (2007).

47. “Dielectronic Recombination of Fe xv Forming Fe xiv: Laboratory Measurements and The-oretical Calculations”,D. V. Lukic, M. Schnell, D. W. Savin, C. Brandau, E. W. Schmidt, S. Bohm, A. Muller, S.Schippers, M. Lestinsky, F. Sprenger, A. Wolf, Z. Altun, and N. R. Badnell,Astrophys. J., 664, 1244 (2007).

46. “Low-Energy Electron Capture by Ne2+ Ions from H(D)”,B. Seredyuk, H. Bruhns, D. W. Savin, D. Seely, H. Aliabadi, E. Galutschek, and C. C.Havener,Phys. Rev. A, 75, 054701 (2007).

45. “Collisional Ionization Equilibrium for Optically Thin Plasmas. I. Updated RecombinationRate Coefficients for Bare though Sodium-like Ions”,P. Bryans, N. R. Badnell, T. W. Gorczyca, J. M. Laming, W. Mitthumsiri, and D. W. Savin,Astrophys. J. Suppl. Ser., 167, 343 (2006).

44. “Strong LSJ Dependence of Fluorescence Yields: Breakdown of the Configuration-AverageApproximation”,M. F. Hasoglu, T. W. Gorczyca, K. T. Korista, S. T. Manson, N. R. Badnell, and D. W.Savin,Astrophys. J. Lett., 649, L149 (2006).

43. “Dielectronic Recombination of Fe xxiii forming Fe xxii: Laboratory Measurements andTheoretical Calculations”,D. W. Savin, G. Gwinner, M. Grieser, R. Repnow, M. Schnell, D. Schwalm, A. Wolf, S.-G.Zhou, S. Kieslich, A. Muller, S. Schippers, J. Colgan, S. D. Loch, M. H. Chen, and M. F. Gu,Astrophys. J., 642, 1275 (2006).

42. “Electron-Ion Recombination Measurements Motivated by AGN X-Ray Absorption Features:Fe xiv forming Fe xiii”,E. W. Schmidt, S. Schippers, A. Muller, M. Lestinsky, F. Sprenger, M. Grieser, R. Repnow,A. Wolf., C. Brandau, D. Lukic, M. Schnell, and D. W. Savin,Astrophys. J. Lett., 641, L157 (2006).

22

41. “Cosmological Implications of the Uncertainty in H− Destruction Rates”,S. Glover, D. W. Savin, and A.-K. Jappsen,Astrophys. J., 640, 553 (2006).

40. “Importance of Configuration Interaction for Accurate Atomic Data: Fluorescence Yields ofK-Shell Vacancy for Lithium-Like Ions”,T. W. Gorczyca, I. Dumitriu, M. F. Hasoglu, K. T. Korista, N. R. Badnell, D. W. Savin,and S. T. Manson,Astrophys. J. Lett., 638, L121 (2006).

39. “Dielectronic Recombination Data for Dynamic Finite-Density Plasmas. X. The FluorineIsoelectronic Sequence”,O. Zatsarinny, T. W. Gorczyca, J. Fu, K. T. Korista, N. R. Badnell, and D. W. Savin,Astron. Astrophys., 447, 379 (2006).

38. “Low Energy Electron Capture by Ne4+ Ions on Atomic Hydrogen”,C. C. Havener, R. Rejoub, C. R. Vane, H. F. Krause, D. W. Savin, M. Schnell, J. G. Wang,and P. C. Stancil,Phys. Rev. A, 71, 034702 (2005).

37. “Dielectronic Recombination Data for Dynamic Finite-Density Plasmas VII. The Neon Iso-electronic Sequence”,O. Zatsarinny, T. W. Gorczyca, K. Korista, N. R. Badnell, and D. W. Savin,Astron. Astrophys., 426, 699 (2004).

36. “Low Energy Electron Capture by Ne3+ Ions on Atomic Hydrogen”,R. Rijoub, M. E. Bannister, C. C. Havener, D. W. Savin, C. Verzania, J. G. Wang, and P.C. Stancil,Phys. Rev. A, 69, 052704 (2004).

35. “Rate Coefficient for H+ + H2 → H + H+2 Charge Transfer and Some Cosmological Implica-

tions”,D. W. Savin, P. S. Krstic, Z. Haiman, and P. C. Stancil,Astrophys. J. Lett., 606, L167 (2004). Erratum: 607, L147 (2004).

34. “Dielectronic Recombination Data for Dynamic Finite-Density Plasmas: IV. The CarbonIsoelectronic Sequence”,O. Zatsarinny, T. W. Gorczyca, K. T. Korista, N. R. Badnell, and D. W. Savin,Astron. Astrophys., 417, 1173 (2004).Erratum:O. Zatsarinny, T. W. Gorczyca, K. T. Korista, J. Fu, N. R. Badnell, W. Mitthumsiri, and D.W. Savin,Astron. Astrophys., 440, 1203 (2005).

33. “Dielectronic Recombination Data for Dynamic Finite-Density Plasmas: II. The OxygenIsoelectronic Sequence”,O. Zatsarinny, T. W. Gorczyca, K. T. Korista, N. R. Badnell, and D. W. Savin,Astron. Astrophys., 412, 587 (2003).Erratum:O. Zatsarinny, T. W. Gorczyca, K. T. Korista, J. Fu, N. R. Badnell, W. Mitthumsiri, and D.

23

W. Savin,Astron. Astrophys., 438, 743 (2005).

32. “Electron Capture by Ne2+ Ions on Atomic Hydrogen”,T. Mroczkowski, D. W. Savin, R. Rejoub, P. S. Krstic, and C. C. Havener,Phys. Rev. A, 68, 032721 (2003).

31. “High Resolution Mass Spectrometry using a Linear Electrostatic Ion Beam Trap”,D. Zajfman, Y. Rudich, I. Sagi, D. Strasser, D. Savin, S. Goldberg, M. Rappaport, and O.Herber,Int. J. Mass Spectrom., 229, 55 (2003).

30. “Dielectronic Recombination of Fe xxi and Fe xxii via N = 2→ N ′ = 2 Core Excitations”,D. W. Savin, S. M. Kahn, G. Gwinner, M. Grieser, R. Repnow, G. Saathoff, D. Schwalm, A.Wolf, A. Muller, S. Schippers, P. A. Zavodszky, M. H. Chen, T. W. Gorczyca, O. Zatsarinny,and M. F. Gu,Astrophys. J. Suppl. Ser., 147, 421 (2003).

29. “Assessment of the Fluorescence and Auger Data Base used in Plasma Modeling”,T. W. Gorczyca, C. N. Kodituwakku, K. T. Korista, O. Zatsarinny, and N. R. Badnell, E.Behar, M. H. Chen, and D. W. Savin,Astrophys. J., 592, 636 (2003).

28. “Dielectronic Recombination of Fe xix Forming Fe xviii: Laboratory Measurements andTheoretical Calculations”,D. W. Savin, S. M. Kahn, J. Linkemann, A. A. Saghiri, M. Schmitt, M. Grieser, R. Repnow,D. Schwalm, A. Wolf, T. Bartsch, A. Muller, S. Schippers, M. H. Chen, N. R. Badnell, T. W.Gorczyca, and O. Zatsarinny,Astrophys. J., 576, 1098 (2002).

27. “Shortcomings of the R-Matrix Method for Treating Dielectronic Recombination Rate Coef-ficients”,T. W. Gorczyca, N. R. Badnell, and D. W. Savin,Phys. Rev. A, 65, 062707 (2002).

26. “Dielectronic Recombination (via 2→ 2 Core Excitations) and Radiative Recombination ontoFe xx: Laboratory Measurements and Theoretical Calculations”,D. W. Savin, E. Behar, S. M. Kahn, G. Gwinner, A. A. Saghiri, M. Schmitt, M. Grieser,R. Repnow, D. Schwalm, A. Wolf, T. Bartsch, A. Muller, S. Schippers, N. R. Badnell, M. H.Chen, and T. W. Gorczyca,Astrophys. J. Suppl. Ser., 138, 337 (2002).

25. “Uncertainties in Dielectronic Recombination Rates: Effects on Solar and Stellar Upper At-mosphere Abundance Determinations,”D. W. Savin, and J. M. Laming,Astrophys. J., 566, 1166 (2002).

24. “Rate Coefficients for D(1s) + H+ ⇀↽ D+ + H(1s) Charge Transfer and Some AstrophysicalImplications”,D. W. Savin,Astrophys. J., 566, 599 (2002).

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23. “Laboratory Measurements of Iron L Shell Emission: 3 → 2 Transitions of Fe xxi – xxivBetween 10.5 A and 12.5 A”,M. F. Gu, S. M. Kahn, D. W. Savin, E. Behar, P. Beiersdorfer, G. V. Brown, D. A. Liedahl,and K. J. Reed,Astrophys. J., 563, 462 (2001).

22. “Interstellar X-Ray Absorption Spectroscopy of Oxygen, Neon, and Iron with the ChandraLETGS Spectrum of X0614+091”,F. Paerels, A. C. Brinkman, R. L. J. van der Meer, J. S. Kaastra, E. Kuulkers, A. J. F. denBoggende, P. Predehl, J. J. Drake, S. M. Kahn, D. W Savin, and B. M. McLaughlin,Astrophys. J., 546, 338 (2001).

21. “Simulating a Maxwellian Plasma using an Electron Beam Ion Trap”,D. W. Savin, P. Beiersdorfer, S. M. Kahn, B. R. Beck, G. V. Brown, M. F. Gu, D. A.Liedahl, and J. H. Scofield,Rev. Sci. Instrum., 71, 3362 (2000).

20. “Experimental M1 Transition Rates of Coronal Lines from Ar x, Ar xiv, and Ar xv”,E. Trabert, S. B. Utter, P. Beiersdorfer, G. V. Brown, H. Chen, C. Harris, P. Neill, D. W.Savin, and A. J. Smith,Astrophys. J., 541, 506 (2000).

19. “Ionization Balance, Chemical Abundances and the Metagalactic Radiation Field at HighRedshift”,D. W. Savin,Astrophys. J., 533, 106 (2000).

18. “Effects of Electron Spiraling on the Anisotropy and Polarization of Photon Emission froman Electron Beam Ion Trap”,M. F. Gu, D. W. Savin, and P. Beiersdorfer,J. Phys. B, 32, 5371 (1999).

17. “Experimentally Derived Dielectronic Recombination Rate Coefficients for Heliumlike C vand Hydrogenic O viii”,D. W. Savin,Astrophys. J., 523, 855 (1999).

16. “Improved EBIT Lifetime Measurement of the Ne8+ 1s2s 3S1 Level”,E. Trabert, P. Beiersdorfer, G. V. Brown, A. J. Smith, S. B. Utter, M. F. Gu, and D. W.Savin,Phys. Rev. A, 60, 002034 (1999).

15. “Absolute Cross Section for Si2+(3s2 1S → 3s3p 1P ) Electron-Impact Excitation”,D. B. Reisenfeld, L. D. Gardner, P. H. Janzen, D. W. Savin, and J. L. Kohl,Phys. Rev. A, 60, 1153 (1999).

14. “Dielectronic Recombination in Photoionized Gas. II. Laboratory Measurements for Fe xviiiand Fe xix”,D. W. Savin, S. M. Kahn, M. Grieser, J. Linkemann, R. Repnow, A. A. Saghiri, M. Schmitt,D. Schwalm, A. Wolf, T. Bartsch, C. Brandau, A. Hoffknecht, A. Muller, S. Schippers, M. H.Chen, and N. R. Badnell,Astrophys. J. Suppl. Ser., 123, 687 (1999).

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13. “Reevaluation of Experiments and New Theoretical Calculations for Electron-Impact Exci-tation of C3+”,P. H. Janzen, L. D. Gardner, D. B. Reisenfeld, D. W. Savin, J. L. Kohl, and K. Bartschat,Phys. Rev. A, 59, 4821 (1999).

12. “Laboratory Measurements of Fe xxiv Line Emission: 3 → 2 Transitions near ExcitationThreshold”,M. F. Gu, S. M. Kahn, D. W. Savin, P. Beiersdorfer, G. V. Brown, D. A. Liedahl, K. J.Reed, C. P. Bhalla, and S. R. Grabbe,Astrophys. J., 518, 1002 (1999).

11. “Dielectronic Recombination for Boronlike Ions”,M. H. Chen, K. J. Reed, D. S. Guo, and D. W. Savin,Phys. Rev. A, 58, 4539 (1998).

10. “Precision Measurement of the Lifetime of the 1s2s 3S1 Metastable Level in Heliumlike O6+”,J. Crespo Lopez-Urrutia, P. Beiersdorfer, D. W. Savin, and K. Widmann,Phys. Rev. A, 58, 238 (1998).

9. “Dielectronic Recombination in Photoionized Gas: The Importance of Fine-Structure CoreExcitations”,D. W. Savin, T. Bartsch, M. H. Chen, S. M. Kahn, D. A. Liedahl, J. Linkemann, A. Muller,S. Schippers, M. Schmitt, D. Schwalm, and A. Wolf,Astrophys. J. Lett., 489, L115 (1997).

8. “A High-Resolution Transmission-Type X-Ray Spectrometer Designed for Observation of theKα Transitions of Highly Charged High-Z Ions”,K. Widmann, P. Beiersdorfer, G. V. Brown, J. Crespo Lopez-Urrutia, V. Decaux, and D. W.Savin,Rev. Sci. Instrum., 68, 1087 (1997).

7. “Laboratory Measurements of Fe xxiv L-Shell Line Emission”,D. W. Savin, P. Beiersdorfer, J. Crespo Lopez-Urrutia, V. Decaux, E. M. Gullikson, S. M.Kahn, D. A. Liedahl, K. J. Reed, and K. Widmann,Astrophys. J. Lett., 470, L73 (1996).

6. “Direct Observation of the Spontaneous Emission of the Hyperfine Transition F = 4 to F = 3in Ground State Hydrogenlike 165Ho66+ in an Electron Beam Ion Trap”,J. R. Crespo Lopez-Urrutia, P. Beiersdorfer, D. W. Savin, and K. Widmann,Phys. Rev. Lett., 77, 826 (1996).

5. “Measurement and Interpretation of the Polarization of the X-Ray Line Emission of Helium-like Fe xxv Excited by an Electron Beam”,P. Beiersdorfer, D. A. Vogel, K. Reed, V. Decaux, J. Scofield, K. Widmann, G. Holzer, E.Forster, O. Wehrhan, D. W. Savin, and L. Schweikhard,Phys. Rev. A, 53, 3974 (1996).

4. “Absolute Measurement of Dielectronic Recombination for C3+ in a Known External Field”,D. W. Savin, L. D. Gardner, D. B. Reisenfeld, A. R. Young, and J. L. Kohl,Phys. Rev. A, 53, 280 (1996).

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3. “Absolute Rate Coefficient for C3+(2s− 2p) Electron Impact Excitation”,D. W. Savin, L. D. Gardner, D. B. Reisenfeld, A. R. Young, and J. L. Kohl,Phys. Rev. A, 51, 2162 (1995).

2. “In Situ Absolute Calibration of a Channel Electron Multiplier for Detection of Positive Ions”,D. W. Savin, L. D. Gardner, D. B. Reisenfeld, A. R. Young, and J. L. Kohl,Rev. Sci. Instrum., 66, 67 (1995).

1. “Measurement of C3+ Dielectronic Recombination in a Known External Field”,A. R. Young, L. D. Gardner, D. W. Savin, G. P. Lafyatis, A. Chutjian, S. Bliman, and J.L. Kohl,Phys. Rev. A, 49, 357 (1994).

Conference Papers

65. “Electron-impact Ionization of Atomic Nitrogen”,C. Ciccarino and D. W. Savin,AIAA Aerospace Sciences Meeting, AIAA SciTech Forum, 08-12 January 2018, Kisssimmee,Florida, USA,AIAA paper 2018-1716 (2018).

64. “Experimental results for H2 formation from H− and H and implications for first star forma-tion”,H. Kreckel, H. Bruhns, M. Cızek, S. C. O. Glover, K. A. Miller, X. Urbain and D. W. Savin,International Conference on Computational Methods in Sciences and Engineering 2010 (ICCMSE-2010),AIP Conf. Proc., 1642, 388 (2015).

63. “Absolute rate coefficients for the recombination of open f-shell tungsten ions”,C. Krantz, K. Spruck, N. R. Badnell, A. Becker, D. Bernhardt, M. Grieser, M. Hahn, ONovotny, R. Repnow, D. W. Savin, A. Wolf, A Muller and S. Schippers,XXVIIIth International Conference on Photonic, Electronic and Atomic Collisions,J. Phys. Conf. Ser., 488, 012051 (2014).

62. “Laboratory studies of primordial chemistry and implications for first star formation”,D. W. Savin,Eighth International Conference on Atomic and Molecular Data and Their Applications,AIP Conf. Proc., 1545, 185 (2013).

61. “Astrochemistry in an Ion Storage Ring”,O. Novotny, M. H. Berg, H. Buhr, M. Froese, W. Geppert, M. Grieser, F. Grussie, M.Hamberg, C. Krantz, M. Lestinsky, M. Mendes, C. Nordhorn, S. Novotny, D. A. Orlov, A.Petrignani, A. Shornikov, J. Stutzel, D. Schwalm, D. W. Savin and A. Wolf,XXVIIth International Conference on Photonic, Electronic and Atomic Collisions,J. Phys. Conf. Ser., 388, 012012 (2012).

60. “Laboratory Measurements of Primordial Chemistry”,D. W. Savin,First Stars IV - from Hayashi to the future, ed. M. Umemura and K. Omukai (American

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Institute of Physics, New York),AIP Conf. Proc., 1480, 81 (2012).

59. “Recombination of Au20+ at low electron-ion collision energies”,S. Schippers, D. Bernhardt, M. Grieser, M. Hahn, C. Krantz, M. Lestinsky, O. Novotny, R.Repnow, D. W. Savin, A. Wolf, and A. Muller,15th International Conference on the Physics of Highly Charged Ions,Phys. Scr., T144, 014039 (2011).

58. “A novel merged beam apparatus to study the cosmic origins of organic chemistry”,M. Garrido, A. O’Connor, K. A. Miller, D. W. Savin, and X. Urbain,Proceedings of the 2010 NASA Laboratory Astrophysics Workshop, ed. D. R. Schultz., p. C26.

57. “Dissociative Recombination in an Ion Storage Ring”,O. Novotny, M. B. Mendes, C. Nordhorn, M. H. Berg, D. Bing, M. W. Froese, C. Krantz, S.Menk, S. Novotny, D. A. Orlov, A. Petrignani, A. Shornikov, J. Stutzel, A. Wolf, H. Buhr,O. Heber, M. L. Rappaport, S. Schwalm, and D. W. Savin,Proceedings of the 2010 NASA Laboratory Astrophysics Workshop, ed. D. R. Schultz., p. C19.

56. “Molecular Hydrogen Formation in the Early Universe: New Implications From LaboratoryMeasurements”,K. A. Miller, H. Kreckel, H. Bruhns, D. W. Savin, X. Urbain, M. Cıcek, and S. C. O. Glover,Proceedings of the 2010 NASA Laboratory Astrophysics Workshop, ed. D. R. Schultz., p. C7.

55. “New Collisional Ionization Equilibrium Calculations for Optically Thin Plasmas”,D. W. Savin, P. Bryans, W. Mitthumsiri, N. R. Badnell, T. W. Gorczyca, and J. M. Laming,Proceedings of the 2010 NASA Laboratory Astrophysics Workshop, ed. D. R. Schultz., p. C5.

54. “Recombination and Ionization Measurements at the Heidelberg Heavy Ion Storage RingTSR”,M. Hahn, M. Lestinsky, O. Novotny, D. W. Savin, D. Bernhardt, A. Muller, S. Schippers,C. Krantz, M. Grieser, R. Repnow, and A. Wolf,Proceedings of the 2010 NASA Laboratory Astrophysics Workshop, ed. D. R. Schultz., p. C4.

53. “Dielectronic Recombination Calculations for Fe15+”,D.-H. Kwon and D. W. Savin,Proceedings of the 2010 NASA Laboratory Astrophysics Workshop, ed. D. R. Schultz., p. C3.

52. “Laboratory Simulations of Molecular Hydrogen Formation in the Early Universe: A ProgressReport”,D. W. Savin, H. Bruhns, S. C. O. Glover, H. Kreckel, K. Miller, and X. Urbain,First Stars and Galaxies: Challenges in the Next Decade, ed. D. Whalen (American Instituteof Physics, New York),AIP Conf. Proc., 1294, 62 (2010).

51. “Experimental Rate Coefficient for Dielectronic Recombination of Neonlike Iron”,E. W. Schmidt, D. Bernhardt, J. Hoffmann, M. Lestinsky, D. V. Lukic, D. A. Orlov, D. W.Savin, S. Schippers, A. Wolf, and D. Yu,14th International Conference on the Physics of Highly Charged Ions,J. Phys. Conf. Ser. 163, 012028 (2009).

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50. “M-Shell Dielectronic Recombination: Theoretical Studies”,Sh. A. Abdel-Naby, D. Nikolic, T. W. Gorczyca, N. R. Badnell, and D. W. Savin,20th International Conference on the Application of Accelerators in Research and Industry,AIP Conf. Proc., 1099, 111 (2008).

49. “Dielectronic recombination measurements of iron M-shell ions motivated by active galacticnuclei X-ray absorption features”,D. V. Lukic, M. Schnell, D. W. Savin, C. Brandau, E. W. Schmidt, S. Bohm, A. Muller, S.Schippers, M. Lestinsky, F. Sprenger, A. Wolf, Z. Altun, and N. R. Badnell,24th Summer School and International Symposium on the Physics of Ionized Gases,Publ. Astron. Obs. Belgrade, 84, 99 (2008).

48. “Analog and Digital Simulations of Maxwellian Plasmas for Astrophysics”,D. W. Savin, N. R. Badnell, P. Beiersdorfer, B. R. Beck, G. V. Brown, P. Bryans, T. W.Gorczcya, M. F. Gu, S. M. Kahn, J. M. Laming, D. A. Liedahl, W. Mitthumsiri, J. H. Scofield,and K. L. Wong,20 Years of Spectroscopy with the Electron Beam Ion Trap,Can. J. Phys., 86, 209 (2008).

47. “Can Heavy Ion Storage Rings Contribute to Our Understanding of the Charge State Distri-butions in Cosmic Atomic Plasmas?”,D. W. Savin,XXVth International Conference on Photonic, Electronic, and Atomic Collisions,J. Phys. Conf. Ser., 88, 012071 (2007).

46. “Steps Toward Dielectronic Recombination of Argon-like Ions: A Revisited Theoretical In-vestigation of Sc3+ and Ti4+,”D. Nikolic, T. W. Gorczyca, J. Fu, D. W. Savin, and N. R. Badnell,19th International Conference on the Application of Accelerators in Research and Industry,Nucl. Instrum. Methods B, 261, 145 (2007).

45. “Some Ionization and Recombination Data Needs for Cosmic Atomic Plasmas”,D. W. Savin,15th International Conference on Atomic Processes in Plasmas,AIP Conf. Proc., 926, 124 (2007).

44. “Electron-Ion Recombination Measurements of Fe7+, Fe8+, and Fe13+ Motivated by ActiveGalactic Nuclei X-Ray Absorption Features”,E. W. Schmidt, S. Schippers, C. Brandau, D. Bernhardt, D. Yu, A. Muller, M. Lestinsky, F.Sprenger, J. Hoffman, D. A. Orlov, M. Grieser, R. Repnow, A. Wolf, D. Lukic, M. Schnell,and D. W. Savin,13th International Conference on the Physics of Highly Charged Ions,J. Phys. Conf. Ser., 58, 223 (2007).

43. “H+3 Cooling in Primordial Gas”,

S. Glover and D. W. Savin,Physics, chemistry, and astronomy of H+

3 ,Phil. Trans. R. Soc. London A, 364, 3107 (2006).

42. “Measurements of Atomic and Molecular Parameters of Hydrogen and Nitrogen for SolarPhysics”,

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A. Daw, A. G. Calamai, S. Brewer, B. Myer, D. W. Savin, and M. Schnell,Proceedings of the International Symposium on Solar Physics and Solar Eclipses (SPSE 2006),ed. R. Ramelli, O. Shalabiea, I. Saleh, J. O. Stenflo, p. 109.

41. “Dipole Polarization Effects on Highly-Charged-Ion-Atom Electron Capture”,C. C. Havener, S. L. Hough, R. Rejoub, M. Schnell, D. W. Savin,Proceedings of the XXIVth International Conference on Photonic, Electronic, and AtomicCollisions, ed. P. D. Fainstein, M. A. Lima, J. E. Miraglia, E. C. Montenegro, and R. D.Rivarola (World Scientific, Singapore, 2006), p. 522.

40. “Cosmological Implications of the Uncertainty in Astrochemical Rate Coefficients”,S. C. O. Glover, D. W. Savin, and A.-K. Jappsen,Proceedings of the 2006 NASA Laboratory Astrophysics Workshop, ed. P. F. Weck, V. H. S.Kwong, and F. Salama (NASA/CP-2006-214549, 2006), p. 248.

39. “Dielectronic Recombination In Active Galactic Nuclei”,D. V. Lukic, M. Schnell, D. W. Savin, Z. Altun, N. R. Badnell, C. Brandau, E. W. Schmidt,A. Muller, S. Schippers, F. Sprenger, M. Lestinsky, and A. Wolf,Proceedings of the 2006 NASA Laboratory Astrophysics Workshop, ed. P. F. Weck, V. H. S.Kwong, and F. Salama (NASA/CP-2006-214549, 2006), p. 221.

38. “Calculation of Atomic Data for NASA Missions”,T. W. Gorczyca, K. T. Korista, J. Fu, D. Nikoli, M. F. Hasoglu, I. Dumitriu, N. R. Badnell,D. W. Savin, and S. T. Manson,Proceedings of the 2006 NASA Laboratory Astrophysics Workshop, ed. P. F. Weck, V. H. S.Kwong, and F. Salama (NASA/CP-2006-214549, 2006), p. 190.

38. “Collisional Ionization Equilibrium for Optically Thin Plasmas”,P. Bryans, W. Mitthumsiri, D. W. Savin, N. R. Badnell, T. Gorczyca, and J. M. Laming,Proceedings of the 2006 NASA Laboratory Astrophysics Workshop, ed. P. F. Weck, V. H. S.Kwong, and F. Salama (NASA/CP-2006-214549, 2006), p. 166.

37. “Laboratory Astrophysics White Paper”,N. Brickhouse, S. Federman, V. Kwong, F. Salama, D. Savin, P. Stancil, J. Weingartner,and L. Ziurys,Proceedings of the 2006 NASA Laboratory Astrophysics Workshop, ed. P. F. Weck, V. H. S.Kwong, and F. Salama (NASA/CP-2006-214549, 2006), p. 1.

36. “Ionization and Recombination with Electrons: Laboratory Measurements and ObservationalConsequences”,D. W. Savin,X-Ray Diagnostics of Astrophysical Plasmas, ed. R. Smith (American Institute of Physics,New York),AIP Conf. Proc., 774, 297 (2005).

35. “Importance of M-shell Iron Dielectronic Recombination in Active Galactic Nuclei”,D. W. Savin, S. Bohm, C. Brandau, M. Lestinsky, A. Muller, S. Schippers, E. W. Schmidt,M. Schnell, F. Sprenger, and A. Wolf,Energiereiche Atomare Stoße (25th Atomic Collision Dynamics Workshop), ed. Jan M Rostand J.Ullrich (Max Planck Institute for Physics of Complex Systems, Dresden, 2004).

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34. “X-Ray Spectroscopy of Astrophysical Plasmas”,S. M. Kahn, E. Behar, A. Kinkhabwala, and D. W. Savin,Frontiers of X-Ray Astronomy, ed. A. C. Fabian, K. A. Pounds, R. D. Blandford (CambridgeUniversity Press, Cambridge, 2004), p. 19.

33. “Recombination Rate Coefficients for Astrophysical Applications from Storage-Ring Experi-ments”,S. Schippers, S. Bohm, A. Muller, G. Gwinner, M. Schnell, D. Schwalm, A. Wolf, and D. W.Savin,Stellar Coronae in the Chandra and XMM-Newton Era, ed. F. Favata and J. Drake, (Astro-nomical Society of the Pacific, Provo, Utah, 2002), p. 591.

32. “Ion Storage Ring Measurements of Low Temperature Dielectronic Recombination Rate Co-efficients for Modeling X-Ray Photoionized Cosmics Plasmas”,D. W. Savin, G. Gwinner, D. Schwalm, A. Wolf, A. Muller, and S. Schippers,NASA Laboratory Astrophysics Workshop, ed. F. Salama (NASA/CP-2002-21186, 2002), p.83.

31. “Laboratory Measurements of Charge Transfer on Atomic Hydrogen at Thermal Energies”,C. C. Havener, C. R. Vane, H. F. Krause, P. C. Stancil, T. Mroczkowski, and D. W. Savin,NASA Laboratory Astrophysics Workshop, ed. F. Salama (NASA/CP-2002-21186, 2002), p.62.

30. “Computation of Dielectronic Recombination Data for the Oxygen-like Isoelectronic Se-quence”,T. W. Gorczyca, K. T. Korista, O. Zatsarinny, N. R. Badnell, and D. W. Savin,NASA Laboratory Astrophysics Workshop, ed. F. Salama (NASA/CP-2002-21186, 2002), p.60.

29. “X-Ray Spectroscopy of Astrophysical Plasmas”,S. M. Kahn, E. Behar, A. Kinkhabwala, and D. W. Savin,X-ray astronomy in the new millenium,Phil. Trans. R. Soc. London A, 360, 1923 (2002).

28. “Conference Highlights: Spectroscopic Challenges of Photoionized Plasmas”,G. Ferland and D. W. Savin,Spectroscopic Challenges of Photoionized Plasmas,Publ. Astron. Soc. Pacific, 113, 1024 (2001).

27. “Dielectronic Recombination of L-Shell Ions”,G. Gwinner, D. W. Savin, D. Schwalm, A. Wolf, S. Schippers, A. Muller, N. R. Badnell, M.H. Chen,10th International Conference on the Physics of Highly Charged Ions,Phys. Scr., T92, 319, (2001).

26. “Current Research with Highly Charged Ions in EBIT and SuperEBIT”,P. Beiersdorfer, J. A. Britten, G. V. Brown, H. Chen, E. J. Clothiaux, J. Cottam, E. Forster,M.-F. Gu, C. L. Harris, S. M. Kahn, J. K. Lepson, P. A. Neill, D. W. Savin, H. Schulte-Schreppig, L. Schweikhard, A. J. Smith, E. Trabert, J. Tschischgale, S. B. Utter, and K. L.Wong,

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10th International Conference on the Physics of Highly Charged Ions,Phys. Scr., T92 268 (2001).

25. “Measurements of Atomic Parameters of Highly Charged Ions for Interpreting AstrophysicalSpectra”,G. V. Brown, P. Beiersdorfer, K. R. Boyce, K. C. Gendreau, M. F. Gu, J. Cygax, S. M. Kahn,R. Kelley, F. S. Porter, D. W. Savin, and S. B. Utter,10th International Conference on the Physics of Highly Charged Ions,Phys. Scr., T92, 130 (2001).

24. “Dielectronic Recombination Rates for L-Shell Iron Ions (Fe xvii - Fe xxiv) in CollisionallyIonized Plasmas”,D. W. Savin, T. Bartsch, M. H. Chen, M. Grieser, T. W. Gorczyca, G. Gwinner, S. M. Kahn,J. Linkemann, A. Muller, R. Repnow, A. Saghiri, S. Schippers, M. Schmitt, D. Schwalm, andA. Wolf,New Century of X-Ray Astronomy, ed. H. Kunieda and H. Inoue, (Astronomical Society ofthe Pacific, Provo, Utah, 2001), p. 272.

23. “Atomic Data Needs for Modeling Photoionized Plasmas”,D. W. Savin,Spectroscopic Challenges of Photoionized Plasmas, ed. G. J. Ferland and D. W. Savin,(Astronomical Society of the Pacific, Provo, Utah, 2001), p. 167.

22. “Measurements of Low Temperature Dielectronic Recombination in L-Shell Iron for ModelingX-Ray Photoionized Cosmic Plasmas”,D. W. Savin, N. R. Badnell, T. Bartsch, E. Behar, C. Brandau, M. H. Chen, M. Grieser, T.W. Gorczyca, G. Gwinner, A. Hoffknecht, S. M. Kahn, A. Muller, R. Repnow, A. A. Saghiri,S. Schippers, M. Schmitt, D. Schwalm, A. Wolf, and P. A. Zavodszky,12th APS Topical Conference on Atomic Processes in Plasmas,AIP Conf. Proc., 547, 267 (2000).

21. “Modeling X-Ray Photoionized Plasmas: Ion Storage Ring Measurements of Low Tempera-ture Dielectronic Recombination Rate Coefficients for L-Shell Iron”,D. W. Savin, N. R. Badnell, T. Bartsch, C. Brandau, M. H. Chen, M. Grieser, G. Gwinner,A. Hoffknecht, S. M. Kahn, J. Linkemann, A. Muller, R. Repnow, A. A. Saghiri, S. Schippers,M. Schmitt, D. Schwalm, A. Wolf, and P. A. Zavodszky,Atomic Data Needs for X-Ray Astronomy, ed. M. A. Bautista, T. R. Kallman, and A. K.Pradhan (NASA/CP-2000-209968, 2000), p. 143.

20. “Laboratory Data for X-Ray Astronomy”,P. Beiersdorfer, G. V. Brown, H. Chen, M. F. Gu, S. M. Kahn, J. K. Lepson, D. W. Savin,and S. B. Utter,Atomic Data Needs for X-Ray Astronomy, ed. M. A. Bautista, T. R. Kallman, and A. K.Pradhan (NASA/CP-2000-209968, 2000), p. 103.

19. “Emission Line Spectra from Low-Density Laboratory Plasmas”,P. Beiersdorfer, G. V. Brown, J. J. Drake, M.-F. Gu, S. M. Kahn, J. K. Lepson, D. A. Liedahl,C. W. Mauche, D. W. Savin, S. B. Utter, and B. J. Wargelin,Astrophysical Plasmas: Codes, Models, and Observations,Rev. Mex. Astron. Astrofis. (Serie de Conferencias), 9, 123 (2000).

32

18. “Dielectronic Recombination: An Overview of Theory and Experiment and Some Astrophys-ical Implications”,D. W. Savin,Astrophysical Plasmas: Codes, Models, and Observations,Rev. Mex. Astron. Astrofis. (Serie de Conferencias), 9, 115 (2000).

17. “Recombination in Electron Coolers”,A. Wolf, G. Gwinner, J. Linkemann, A. A. Saghiri, M. Schmitt, D. Schwalm, M. Grieser, M.Beuelspacher, T. Bartsch, C. Brandau, A. Hoffknecht, A. Muller, S. Schippers, O. Uwira, andD. W. Savin,Workshop on Electron Cooling and Related Topics,Nucl. Instrum. Methods A, 441, 183 (2000).

16. “Dielectronic Recombination Rates for Iron L-Shell Ions from Storage Ring Experiments”,S. Schippers, N. R. Badnell, T. Bartsch, C. Brandau, M. H. Chen, M. Grieser, G. Gwinner,A. Hoffknecht, S. M. Kahn, J. Linkemann, A. Muller, R. Repnow, A. A. Saghiri, D. W.Savin, M. Schmitt, D. Schwalm, and A. Wolf,Proceedings of the International Seminar on Atomic Processes in Plasmas, Toki, Japan 1999,ed. T. Kato and I. Murakami, National Institute for Fusion Science Research Report, NIFS-PROC-44, p. 122 (2000).

15. “Recent Livermore Excitation and Dielectronic Recombination Measurements for Laboratoryand Astrophysical Spectral Modeling”,P. Beiersdorfer, G. V. Brown, M.-F. Gu, C. L. Harris, S. M. Kahn, S.-H. Kim, P. A. Neill,D. W. Savin, A. J. Smith, S. B. Utter, and K. L. Wong,Proceedings of the International Seminar on Atomic Processes in Plasmas, Toki, Japan 1999,ed. T. Kato and I. Murakami, National Institute for Fusion Science Research Report, NIFS-PROC-44, p. 25 (2000).

14. “Ion Storage Ring Measurements of Dielectronic Recombination for Astrophysically RelevantFeq+ Ions”,D. W. Savin, T. Bartsch, C. Brandau, M. H. Chen, M. Grieser, A. Hoffknecht, S. M. Kahn,J. Linkemann, A. Muller, R. Repnow, A. A. Saghiri, S. Schippers, M. Schmitt, D. Schwalm,and A. Wolf,15th International Conference on the Application of Accelerators in Research and Industry,AIP Conf. Proc., 475, 166 (1999).

13. “Simulations of a Maxwellian Plasma using an Electron Beam Ion Trap”,D. W. Savin, B. Beck, P. Beiersdorfer, S. M. Kahn, G. V. Brown, M. F. Gu, D. A. Liedahl,and J. H. Scofield,9th International Conference on the Physics of Highly Charged Ions,Phys. Scr., T80B, 312 (1999).

12. “Laboratory Measurement of Resonant Contributions to Fe xxiv Line Emission”,M. F. Gu, P. Beiersdorfer, G. V. Brown, S. M. Kahn, D. A. Liedahl, K. J. Reed, and D. W.Savin,9th International Conference on the Physics of Highly Charged Ions,Phys. Scr., T80B, 310 (1999).

11. “Recent Dielectronic Recombination Experiments”,A. Muller, T. Bartsch, C. Brandau, A. Hoffknecht, H. Knopp, S. Schippers, O. Uwira, J.

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Linkemann, A. A. Saghiri, M. Schmitt, D. Schwalm, A. Wolf, F. Bosch, B. Franzke, C.Kozhuharov, P. H. Mokler, F. Nolden, M. Steck, T. Stohlker, T. Winkler, H. Danared, D. R.DeWitt, H. Gao, H. Lebius, R. Schuch, W. Spies, W. Zong, G. H. Dunn, W. G. Graham, J.A. Tanis, J. Doerfert, D. W. Savin, and Z. Stachura,3rd Euroconference on Atomic Physics with Stored Highly Charged Ions,Hyperf. Int., 114, 229 (1998).

10. “The Effects of Electron Spiraling on the Anisotropy and Polarization of Photon Emissionfrom an Electron Beam Ion Trap”,D. W. Savin, M. F. Gu, and P. Beiersdorfer,Proceedings of the Japan-US Workshop on Plasma Polarization Spectroscopy and the Inter-national Seminar on Plasma Polarization Spectroscopy, Kyoto, Japan, 1998, ed. T. Fujimotoand P. Beiersdorfer, National Institute for Fusion Science Research Report, NIFS-PROC-37,p. 90 (1998).

9. “New Electron Temperature and Density Diagnostics for Photoionized Gas”,D. W. Savin, S. M. Kahn, J. Linkemann, M Schmitt, D. Schwalm, A. Wolf, T. Bartsch, A.Muller, S. Schippers, M. H. Chen, and D. A. Liedahl,NIST Special Publication 926, Poster Papers - International Conference on Atomic andMolecular Data and Their Applications (ICAMDATA 97), ed. W. L. Wiese and P. J. Mohr(NIST, Gaithersburg, 1998), p. 96.

8. “Laboratory Measurements of Iron L-Shell Line Emission”,M. F. Gu, S. M. Kahn, D. W. Savin, P. Beiersdorfer, G. V. Brown, and D. A. Liedahl,NIST Special Publication 926, Poster Papers - International Conference on Atomic andMolecular Data and Their Applications (ICAMDATA 97), ed. W. L. Wiese and P. J. Mohr(NIST, Gaithersburg, 1998), 137.

7. “Hyperfine Transitions in Ground State Hydrogen-like 165Ho66+ and 185,187Re74+,”J. R. Crespo Lopez-Urrutia, P. Beiersdorfer, D. W. Savin, K. Widmann,14th International Conference on the Application of Accelerators in Research and Industry,AIP Conf. Proc., 392, 87 (1997).

6. “Enhancement Effects on Electron-Ion Recombination Rates”,A. Muller, T. Bartsch, C. Brandau, H. Danared, D. R. DeWitt, J. Doerfert, G. H. Dunn, H.Gao, W. G. Graham, A. Hoffknecht, H. Lebius, J. Linkemann, M. S. Pinzola, D. W. Savin,S. Schippers, M. Schmitt, R. Schuch, D. Schwalm, W. Spies, O. Uwira, A. Wolf, and W.Zong,14th International Conference on the Application of Accelerators in Research and Industry,AIP Conf. Proc., 392, 31 (1997).

5. “Recombination Measurements at Low Energies with Au49+,50+,51+ at the TSR”,O. Uwira, A. Muller, J. Linkemann, T. Bartsch, C. Brandau, M. Schmitt, A. Wolf, D.Schwalm, R. Schuch, W. Zong, H. Lebius, W. G. Graham, J. Doerfert, and D. W. Savin,2nd Euroconference on Atomic Physics with Stored Highly Charged Ions,Hyperf. Int., 108, 149 (1997).

4. “Overview of the Current Spectroscopy Effort on the Livermore Electron Beam Ion Traps”,P. Beiersdorfer, G. Brown, J. Crespo Lopez-Urrutia, V. Decaux, S. R. Elliott, D. Savin, A.J. Smith, G. Stefanelli, K. Widmann, K. L. Wong,

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1st Euroconference on Atomic Physics with Stored Highly Charged Ions,Hyperf. Int., 99, 203 (1996).

3. “Laboratory Astrophysics: Measurements of n = n′ to n = 2 Line Emission in Fe16+ toFe23+”,D. W. Savin, P. Beiersdorfer, G. V. Brown, J. Crespo Lopez-Urrutia, V. Decaux, S. M.Kahn, D. A. Liedahl, K. J. Reed, and K. Widmann,10th APS Topical Conference on Atomic Processes in Plasmas,AIP Conf. Proc., 381, 39 (1996).

2. “Report on the Plasma Codes Workshop Meeting of the High Energy Astrophysics Divisionof the AAS: Napa Valley, California”,N. Brickhouse, R. Edgar, J. Kaastra, T. Kallman, D. Liedahl, K. Masai, B. Monsignori-Fossi,R. Petre, W. Sanders, D. Savin, and R. Stern,High Energy Astrophysics Division of the American Astronomical Society,Legacy, 6, 4 (1995).

1. “Experiments on Electron Impact Excitation and Dielectronic Recombination at Harvard-Smithsonian”, L. D. Gardner, J. L. Kohl, D. W. Savin, and A. R. Young,International Conference on the Physics of Multiply Charged Ions and International Workshopon E.C.R. Sources,Journal de Physique Colloques, 50, C1-405 (1989).

Invited Conference and Workshop Lectures

38. “Laboratory Astrophysics Studies along the Cosmic Cycle of Gas”,49th American Physical Society Division of Atomic, Molecular, and Optical Physics,Ft. Lauderdale, FL, 30 May 2018.

37. “Astrochemistry from the First Stars to the Origins of Organic Chemistry”,Sensitivity, Error, and Uncertainty Quantification for Atomic, Plasma, and Material Data,Brookhaven, NY, 07 Nov. 2015.

36. “Merged Beams Studies for Astrobiology”,XXIXth International Conference on Photonic, Electronic, and Atomic Collisions,Toledo, Spain, 22 Jul. 2015.

35. “Laboratory Studies of Primordial Chemistry and Implications for First Star Formation”,Eighth International Conference on Atomic and Molecular Data and Their Applications,NIST, Gaithersburg, MD, 03 Oct. 2012.

34. “A Review of Astrophysically Motivated Atomic Recombination and Ionization Measurementsin Ion Storage Rings”,16th International Conferences on the Physics of Highly Charged Ions,Heidelberg, Germany, 04 Sep. 2012.

33. “Laboratory Meausrements of Primordial Chemistry”,First Stars IV - from Hayashi to the future,Kyoto, Japan, 22 May 2012.

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32. “Molecular Hydrogen Formation in the Early Universe: New Implications from Recent Lab-oratory Results”,3rd International Conference on Current Developments in Atomic, Molecular, Optical, andNano Physics,Dehli, India, 15 Dec. 2011.

31. “H2 Formation in the Early Universe: Modern Day Measurements of Chemistry Long Ago”,Hydrogen Cosmology Workshop, Institute for Theoretical Atomic and Molecular Physics,Harvard-Smithsonian Center for Astrophysics, Cambridge, MA, 20 May 2011.

30. ”The Genesis Projects: Laboratory Studies in Molecular Astrophysics from the First Starsto the Beginning of Organic Chemistry”,103rd Topical Symposium, New York Section of the American Physical Society,Hofstra University, Hemstead, NY, 16 Oct. 2010.

29. “Experimental Studies in Laboratory Astrophysics from High z to High Z”,Symposium on Laboratory Astrophysics,Harvard-Smithsonian Center for Astrophysics, Cambridge, MA, 20 Sep. 2010.

28. “Molecular Hydrogen Formation in the Early Universe: New Implications from LaboratoryMeasurements”,Eighth International Conference on Dissociative Recombination: Theory, Experiments &Applications,Lake Tahoe, CA, 19 Aug. 2010.

27. “Molecular hydrogen formation in the early Universe: new implications for populations IIIstarts from laboratory measurements”Solvay Workshop: Molecular Complexes in our Atmosphere and Beyond,Brussels, Belgium, 23 Apr. 2010.

26. “Blowing in the Wind or Storage Ring Studies for AGN and Stellar Winds”,Meeting of the Groupe de Contact Fonds National de la Recherche Scientifique (FNRS):Atomes, Molecules et Radiation,Brussels, Belgium, 13 Oct. 2009.

25. “Recombination and Ionization Measurements for Astrophysics”,Symposium on Physics with Cold Stored Ion Beams,Max Planck Institute for Nuclear Physics, Heidelberg, Germany, 12 Jun. 2008.

24. “Progress on Laboratory Measurements of H2 Formation for Early Universe Chemistry”,Workshop on Atomic and Molecular Physics of the Early Universe, Institute for TheoreticalAtomic and Molecular Physics, Harvard-Smithsonian Center for Astrophysics, Cambridge,MA, 01 Apr. 2008.

23. “Laboratory Astrophysics: Summary and Outlook”,Atomic Ion Stage Abundances in Astrophysical Plasmas, South East Laboratory AstrophysicsWorkshop,Auburn, AL, 26 Feb. 2008.

22. “Laboratory Astrophysics at Heavy-Ion Storage Rings”,XXVth International Conference on Photonic, Electronic, and Atomic Collisions,Freiberg, Germany, 30 Jul. 2007.

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21. “Atomic Recombination and Ionization Data Needs Cosmic Plasmas”,15th American Physical Society Topical Conference on Atomic Processes in Plasmas,Gaithersburg, MD, 21 Mar. 2007.

20. “Analog and Digital Simulations of Maxwellian Plasmas for Astrophysics”,20 Years of Spectroscopy with the Electron Beam Ion Trap,Berkeley, CA, 14 Nov. 2006.

19. “Cosmology in a Can: Laboratory Studies in Atomic and Molecular Physics from High z toLow Z”,51st Israeli Physics Society Annual Meeting,Karmiel, Israel, 29 Dec. 2005.

18. “Dielectronic Recombination”,206th American Astronomical Society,Minneapolis, MN, 01 Jun. 2005.

17. “Laboratory Cosmology”,36th American Physical Society Division of Atomic, Molecular, and Optical Physics,Lincoln, NE, 18 May 2005.

16. “Ionization and Recombination: Laboratory Measurements and Observational Consequences”,X-Ray Diagnostics of Astrophysical Plasmas,Cambridge, MA, 16 Nov. 2004.

15. “The Importance of M-Shell Iron 3 to 3 Dielectronic Recombination in Active Galactic Nu-clei”,25th Atomic Collision Dynamics Workshop (Energiereiche Atomare Stoße),Riezlern im Kleinwalsertal, Austria, 02 Feb. 2004.

14. “Uncertainties in Chemical Abundances and the Metagalactic Radiation Field at High Red-shift”,Israeli National Astrophysics Conference Series,Rehovot, Israel, Feb. 2003.

13. “Ion Storage Ring Measurements of Dielectronic Recombination for Astrophysically RelevantIron Ions: A Progress Report”,17th International Conference on the Application of Accelerators in Research and Industry,Denton, TX, 14 Nov. 2002.

12. “Ion Storage Ring Measurements of Low Temperature Dielectronic Recombination Rate Co-efficients for Modeling X-Ray Photoionized Cosmic Plasmas”,NASA Laboratory Astrophysics Workshop,Moffett Field, CA, 01 May 2002.

11. “Dielectronic Recombination: Theory, Experiment, and Some Astrophysical Implications”,Workshop on Complex Phenomena Involving Rydberg Atoms and Molecules, Harvard-SmithsonianCenter for Astrophysics, Cambridge, MA, Apr. 2001.

10. “Measurements of Low Temperature Dielectronic Recombination in L-Shell Iron for ModelingX-Ray Photoionized Cosmic Plasmas”,12th American Physical Society Topical Conference on Atomic Processes in Plasmas,Reno, NV, 23 Mar. 2000.

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9. “Modeling X-Ray Photoionized Plasmas: Ion Storage Ring Measurements of Low Tempera-ture Dielectronic Recombination Rate Coefficients for L-Shell Iron”,Atomic Data Needs for X-Ray Astronomy, Goddard Space Flight Center, Greenbelt, MD, 17Dec. 1999.

8. “Dielectronic Recombination: An Overview of Theory and Experiment and Some Astrophys-ical Implications”,Astrophysical Plasmas: Codes, Models, and Observations,Mexico City, Mexico, 26 Oct. 1999.

7. “Ion Storage Ring Measurements of Dielectronic Recombination for Astrophysically RelevantFeq+ Ions”,15th International Conference on the Application of Accelerators in Research and Industry,Denton, TX, 06 Nov. 1998.

6. “Ion Storage Ring Measurements for Understanding Line Emission and Ionization and Ther-mal Structures of Photoionized Gas”,NASA Laboratory Space Science Workshop,Cambridge, MA, 01 Apr. 1998.

5. “The Effects of Electron Spiraling on the Anisotropy and Polarization of Photon Emissionfrom an Electron Beam Ion Trap”,International Seminar on Plasma Polarization Spectroscopy,Kyoto, Japan, 27 Jan. 1998.

4. “Measurements of Dielectronic Recombination for Astrophysics”,Workshop on Ion-Electron Collisions in Storage Rings,Heidelberg, Germany, Dec. 1997.

3. “Laboratory Astrophysics: Measurements of n = n′ to n = 2 Line Emission in Fe16+ toFe23+”,10th American Physical Society Topical Conference on Atomic Processes in Plasmas,San Francisco, CA, 15 Jan. 1995.

2. “Low Temperature Dielectronic Recombination Measurements for Astrophysics”,Rates, Codes, and Astrophysics Workshop, AXAF Science Center,Cambridge, MA, 18 Jul. 1995.

1. “Atomic Data Needs for X-Ray Astronomy”,High Energy Astrophysics Division Meeting, American Astronomical SocietyNapa, CA, 04 Nov. 1994.

Invited Colloquia and Seminars

84. “Laboratory Studies of Molecular Astrophysics along the Cosmic Cycle of Gas”,Joint Colloquium, Departments of Chemistry and Physics,Old Dominion University, Norfolk, VA, 28 Jan. 2020.

83. “Tracing the Cosmic Cycle of Gas: A Journey in Atomic, Molecular, Stellar, Plasma, Plane-tary, and Condensed Matter/Nanoscale Physics”,

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Colloquium, Department of Physics and Astronomy,University of Delaware, Newark, DE, 18 Sep. 2019.

82. “Laboratory Astrophysics Studies along the Cosmic Cycle of Gas”,Colloquium, Department of Physics,Temple University, Philadelphia, PA, 11 Mar. 2019.

81. “Laboratory Astrochemistry Studies along the Cosmic Cycle of Gas”,Physical Chemistry Seminar, Department of Chemistry,University of Florida, Gainesville, FL, 05 Feb. 2019.

80. “Laboratory Astrophysics Studies along the Cosmic Cycle of Gas”,Colloquium, Department of Physics,University of Florida, Gainesville, FL, 31 Jan. 2019.

79. “Laboratory Astrophysics Studies along the Cosmic Cycle of Gas”,Astrophysics Seminar, Department of Physics,Technion University, Haifa, Israel, 09 Jan. 2019.

78. “Laboratory Astrochemistry Studies along the Cosmic Cycle of Gas,”Seminar, Institute of Chemistry,Hebrew University, Jerusalem, Israel, 26 Dec. 2018.

77. “Laboratory Astrophysics Studies along the Cosmic Cycle of Gas”,Colloquium, Faculty of Physics,Weizmann Institute of Science, Rehovot, Israel, 20 Dec. 2018.

76. “Laboratory Astrophysics Studies along the Cosmic Cycle of Gas”,Colloquium, Department of Physics,Bar Ilan University, Ramat-Gan, Israel, 17 Dec. 2018.

75. “Laboratory Astrophysics Studies along the Cosmic Cycle of Gas”,Astronomy and Astrophysics Colloquium, Department of Physics and Astronomy,University of Rochester, Rochester, NY, 03 Dec. 2018.

74. “Laboratory Astrophysics Studies along the Cosmic Cycle of Gas”,Colloquium, Department of Physics,University of Central Florida, Orlando, FL, 07 Sep. 2018.

73. “Laboratory Astrophysics Studies along the Cosmic Cycle of Gas”,Seminar, Florida Space Institute,University of Central Florida, Orlando, FL, 06 Sep. 2018.

72. “Laboratory Astrophysics Studies along the Cosmic Cycle of Gas”,Department Forum, Department of Physics and Astronomy,University of Nevada, Las Vegas, NV, 20 Apr. 2018.

71. “Laboratory Astrophysics Studies along the Cosmic Cycle of Gas”,Colloquium, Department of Physics,The City College of New York, New York, NY, 07 Feb. 2018.

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70. “Laboratory Astrophysics Studies along the Cosmic Cycle of Gas”,Colloquium, Department of Physics,Missouri University of Science and Technology, Rolla, MO, 01 Feb. 2018.

69. “Laboratory Astrophysics Studies along the Cosmic Cycle of Gas”,Colloquium, Department of Physics,Justus-Liebig-University, Giessen, Germany, 23 Oct. 2017.

68. “Laboratory Astrophysics Studies along the Cosmic Cycle of Gas”,Tea Colloquium,Max-Planck-Institute for Nuclear Physics, Heidelberg, Germany, 19 Oct. 2017.

67. “A Brief History of Chemistry in the Cosmos”,Joint Colloquium, National Radio Astronomy Observatory (NRAO) and Department of De-partment of Astronomy,University of Virginia, Charlottesville, VA, 28 Jan. 2016.

66. “The Genesis Projects: Astrochemistry from the First Stars to the Origins of Organic Chem-istry”,Colloquium, Department of Physics,Washington University, St. Louis, MO, 28 Jan. 2015.

65. “The Genesis Projects: Molecules from the First Stars to the Origins of Organic Chemistry”,Colloquium, Department of Chemistry,Wesleyan University, Middletown, CT, 10 Oct. 2014.

64. “The Genesis Projects: Molecules from the First Stars to the Origins of Organic Chemistry”,Colloquium, Department of Physics,University of Connecticut, Storrs, CT, 28 Mar. 2014.

63. “The Genesis Projects: Laboratory Studes in Molecular Astrophysics from the First Stars tothe Beginnings of Organic Chemistry”,Colloquium, Department of Physics,Tokyo Metropolitan University, Tokyo, Japan, 20 Nov. 2013.

62. “The Genesis Projects: Laboratory Studes in Molecular Astrophysics from the First Stars tothe Beginnings of Organic Chemistry”,Seminar to the group of Prof. Toshiyuki Azuma,RIKEN, Tokyo, Japan, 18 Nov. 2013.

61. “The Genesis Projects: Laboratory Studes in Molecular Astrophysics from the First Stars tothe Beginnings of Organic Chemistry”,Joint Colloquium, Departments of Physics and Astronomy,Univeristy of Texas, Austin, TX, 01 May 2013.

60. “The Genesis Projects: Laboratory Studes in Molecular Astrophysics from the First Stars tothe Beginnings of Organic Chemistry”,Colloquium, Department of Physics,Wesleyan University, Middletown, CT, Apr. 2012.

59. “The Genesis Projects: Laboratory Studes in Molecular Astrophysics from the First Stars tothe Beginnings of Organic Chemistry”,

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Molecular Physics Seminar, Department of Physics,Stockholm University, Stockholm, Sweden, 07 Nov. 2011.

58. “The Genesis Projects: Laboratory Studes in Molecular Astrophysics from the First Stars tothe Beginnings of Organic Chemistry”,Earth and Planetary Sciencies Seminar,American Museum of Natural History, New York, NY, 05 May 2011.

57. “The Genesis Projects: Laboratory Studes in Molecular Astrophysics from the First Stars tothe Beginnings of Organic Chemistry”,Colloquium, Faculty of Physics,Weizmann Institute of Science, Rehovot, Israel, 13 Jan. 2011.

56. “The Genesis Projects: Laboratory Studes in Molecular Astrophysics from the First Stars tothe Beginnings of Organic Chemistry”,Astronomy Seminar, School of Physics and Astronomy,Tel Aviv University, 12 Jan. 2011.

55. “The Genesis Projects: Laboratory Studes in Molecular Astrophysics from the First Stars tothe Beginnings of Organic Chemistry”,Astrophysics Seminar, Department of Physics,Technion University, Haifa, Israel, 06 Jan. 2011.

54. “The Genesis Projects: Laboratory Studes in Molecular Astrophysics from the First Stars tothe Beginnings of Organic Chemistry”,Colloquium, Department of Astronomy,Columbia University, New York, NY, 22 Sep. 2010.

53. “The Genesis Projects: Laboratory Studes in Molecular Astrophysics from the First Stars tothe Beginnings of Organic Chemistry”,Seminar, Department of Theoretical Physics,Charles University, Prague, Czech Republic, 10 May 2010.

52. “The Genesis Projects: Laboratory Studes in Molecular Astrophysics from the First Stars tothe Beginnings of Organic Chemistry”,Colloquium, Institute for Theory and Computation,Harvard-Smithsonian Center for Astrophysics, Cambridge, MA, 27 Apr. 2010.

51. “Laboratory Studies in Molecular Astrophysics from the First Stars to the Beginnings ofOrganic Chemistry”,Colloquium, Department of Physics,University of Nevada, Reno, NV, 22 Jan. 2010.

50. “The Genesis Projects: Laboratory Studies in Molecular Astrophysics from the First Starsto the Beginnings of Organic Chemistry”,Colloquium, Department of Physics,Universite Catholique de Louvain, Louvain-la-Neuve, Belgium, 14 Oct. 2009.

49. “A Novel Laboratory Apparatus to Study H2 Formation in the Early Universe”,Astrophysics Seminar, Department of Physics,Technion University, Haifa, Israel, 27 Dec. 2006.

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48. “A Novel Laboratory Apparatus to Study Gas-Phase Anion-Neutral Reactions”,Colloquium, Department of Physics,University of Giessen, Giessen, Germany, Dec. 2006.

47. Colloquium, Department of Physics,Tokyo Metropolitan University, Japan, Apr. 2006.

46. Natural Science Seminar,International Christian University, Tokyo, Japan, Apr. 2006.

45. Institute of Space and Astronautical Science, Japanese Aerospace Exploration Agency, Tokyo,Japan, Apr. 2006.

44. “AMO Physics from the Early Universe to the Present Day”,Colloqium, Department of Physics,University of Wisconsin, Madison, WI, 22 Feb. 2006.

43. Seminar, Space Vehicles Directorate/VSBXT,Air Force Research Laboratory, Hanscom Air Force Base, MA, Sep. 2005.

42. Colloquium, Department of Physics and Astronomy,University of Nebraska, Lincoln, NE, Sep. 2005.

41. “Laboratory Cosmology”,Seminar, Department of Theoretical Physics,Charles University, Prague, Czech Republic, 14 Mar. 2005.

40. “Laboratory Cosmology”,Atomic Physics Seminar, Department of Physics,University of Wisconsin, Madison, WI, 14 Feb. 2005.

39. “Laboratory Cosmology”,Colloquium, Department of Physics and Astronomy,University of Tennessee, Knoxville, TN, Feb. 2005.

38. “Laboratory Cosmology”,Colloquium, Department of Physics and Astronomy,University of Georgia, Athens, GA, 17 Feb. 2005.

37. Stockholm University, Sweeden, Apr. 2004.

36. Astrophysics Seminar, Department of Physics,Technion University, Haifa, Israel, Jun. 2003.

35. Astronomy Seminar, School of Physics and Astronomy,Tel Aviv University, Israel, May 2003.

34. “Atomic Physics at High Redshift and Near Black Holes”,Colloquium, Department of Physics and Astronomy,University of Toledo, Toldedo, OH, Nov. 2002.

33. “Atomic Physics at High Redshift and Near Black Holes”,Colloquium, Department of Physics,College of William and Mary, Williamsburg, VA, Apr. 2002.

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32. “Atomic Physics at High Redshift and Near Black Holes”,Seminar, Laboratoire de l’Univers et de ses Theories,Observatoire de Paris-Meudon, France, Jan. 2002.

31. “Atomic Physics at High Redshift and Near Black Holes”,Colloqium, Department of Physics,Wesleyan University, Middletown, CT, Nov. 2001.

30. “Atomic Physics at High Redshift and Near Black Holes”,Atomic, Molecular, and Optical Physics Seminar, Department of Physics,University of Connecticut, Storrs, CT, Nov. 2001.

29. “Atomic Physics at High Redshift and Near Black Holes”,Colloquium, Department of Physics and Astronomy,University of Georgia, Athens, GA, Oct. 2001.

28. “Atomic Physics at High Redshift and Near Black Holes”,Seminar, Physics Division,Oak Ridge National Laboratory, Oak Ridge, TN, Apr. 2001.

27. “Atomic Physics at High Redshift and Near Black Holes”,Atomic Physics Colloquium,National Institute for Fusion Science, Toki, Japan, Mar. 2001.

26. “Atomic Physics at High Redshift and Near Black Holes”,Colloquium, Department of Physics and AstronomyUniversity of Oklahoma, Norman, OK, Feb. 2001.

25. Colloquium, Department of Physics and Astronomy,Appalachian State University, Boone, NC, Nov. 2000.

24. Joint Solar Physics and Gamma & Cosmic Ray Astrophysics Seminar, Space Science Division,Naval Research Laboratory, Washington, DC, Aug. 2000.

23. Seminar, Atomic Physics Division,National Institute of Standards and Technology, Gaithersburg, MD, Aug. 2000.

22. “Atomic Physics at High Redshift and Near Black Holes”,Atomic, Molecular, and Optical Physics Seminar, Department of Physics,Ohio State University, Columbus, OH, Apr. 2000.

21. “Atomic Physics at High Redshift and Near Black Holes”,Astrophysics Seminar, Department of Physics and Astronomy,University of Kentucky, Lexington, KY, Mar. 2000.

20. Atomic Physics Seminar, Department of Physics and Astronomy,University of Kentucky, Lexington, KY, Mar. 2000.

19. “Atomic Physics at High Redshift and Near Black Holes”,Colloquium, Department of Physics,Auburn University, Auburn, AL, Nov. 1999.

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18. “Atomic Physics at High Redshift and Near Black Holes”,Colloquium, Department of Physics,Georgia State University, Atlanta, GA, Nov. 1999.

17. Atomic Physics Colloquium,Max Planck Institute for Plasma Physics, Berlin, Germany, May 1999.

16. Atomic Physics Colloqium,Max Planck Institute for Nuclear Physics, Heidelberg, Germany, Apr. 1999.

15. Seminar, Division of Star and Planet Formation,Max Planck Institute for Astronomy, Heidelberg, Germany, Apr. 1999.

14. Atomic Physics Seminar, Department of Physics,University of Wisconsin, Madison, WI, Feb. 1999.

13. Colloqium, Department of Physics,Western Michigan University, Kalamazoo, MI, Feb. 1999.

12. Atomic Physics Seminar, Department of Physics,Western Michigan University, Kalamazoo, MI, Feb. 1999.

11. Joint Seminar, Divisions of Atomic, Molecular, and Plasma Physics,Weizmann Institute of Science, Rehovot, Israel, Nov. 1998.

10. Dielectronic Recombination Measurements for X-ray Photoionized Gas”,Seminar, High Energy Astrophysics Division,Harvard-Smithsonian Center for Astrophysics, Cambridge, MA, Aug. 1997.

9. Colloquium,Max Planck Institute for Nuclear Physics, Heidelberg, Germany, Apr. 1996.

8. Colloqium, Department of Physics,University of Nevada, Las Vegas, NV, Mar. 1996.

7. Seminar, Atomic and Molecular Physics Division,Harvard-Smithsonian Center for Astrophysics, Cambridge, MA, Apr. 1995.

6. Colloqium, Department of Physics and Astronomy,University of Kentucky, Lexington, KY, Feb. 1995.

5. Atomic Physics Seminar, Department of Physics and Astronomy,University of Kentucky, Lexington, KY, Feb. 1995.

4. Seminar, Physics Division,Oak Ridge National Laboratory, Oak Ridge, TN, Feb. 1995.

3. “Absolute Measurements of Field Enhanced Dielectronic Recombination and Electron ImpactExcitation”,Seminar, V Division,Lawrence Livermore National Laboratory, Livermore, CA, Feb. 1993.

44

2. “Absolute Measurements of Field Enhanced Dielectronic Recombination and Electron ImpactExcitation”,Solar Physics Seminar, Space Sciences Division,Naval Research Laboratory, Washington, DC, Feb. 1993.

1. “Absolute Measurements of Field Enhanced Dielectronic Recombination and Electron ImpactExcitation”,Seminar, Atomic Physics Division,National Institute of Standards and Technology, Gaithersburg, MD, Feb. 1993.

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IV. Service and Administrative Experience

University Service

2018 - present Structure and Operations Committee, Columbia University Senate, Co-Chair.2018 - 2019 Colloquium Committee, Department of Astronomy, Member.2013 - 2014 Colloquium Committee, Department of Astronomy, Member.2012 - 2013 Department of Astronomy Faculty Meetings, Research Officer Representative.2005 - 2007 Alumni Relations Committee, Columbia University Senate, Member.2005 - 2018 Budget Review Committee, Columbia University Senate, Member.2005 - present Structure and Operations Committee, Columbia University Senate, Member.2004 - 2005 Honors & Prizes Committee, Columbia University Senate, Member.2004 - 2005 External Relations & Research Policy Comm., Columbia Univ. Senate, Member.2004 - present Research Officers Committee, Columbia University Senate, Chair.2004 - present Savin Group, Astrophysics Laboratory, Columbia University, Leader.2003 - 2004 Researcher Officers Committee, Columbia University Senate, Member.2003 - present Columbia University Senate, Senator.2001 - 2002 Ad Hoc Researchers’ Committee of the Columbia University Senate, Member.

Presentations to National Advisory Committees

09/2018 National Academy of Sciences, Decadal Assessment on Atomic, Molecular, and Op-tical Science Committee, Washington, DC, “Perspectives on the Interplay of As-trophysics and AMO Physics.”.

04/2007 National Academy of Sciences, Plasma Science Committee, Washington, DC,“Report on the 2006 NASA-Sponsored Laboratory Astrophysics Workshop”.

11/2006 National Academy of Sciences, Committee on Astron. and Astrophys., Irvine, CA,“Report on the 2006 NASA-Sponsored Laboratory Astrophysics Workshop”.

11/2006 American Physical Society, Physics Policy Committee, Washington, DC,“Report on the 2006 NASA-Sponsored Laboratory Astrophysics Workshop”.

11/2006 National Academy of Sciences, Board on Physics and Astronomy, Irvine, CA,“Report on the 2006 NASA-Sponsored Laboratory Astrophysics Workshop”.

Service on International Bodies

2009 - 2013 International Conference on Photonic, Electronic, and Atomic Collisions, GeneralCommittee, Member.

Service on National Bodies

2013 - 2019 American Astronomical Society, Laboratory Astrophysics Division, Secretary.2012 - 2013 American Astronomical Society, Laboratory Astrophysics Division, Steering Com-

mittee Member.2011 - 2012 American Astronomical Society, Working Group on Laboratory Astrophys., Chair.2009 American Physical Socieity, Division of Atomic, Molecular, and Optical Physics,

Program Committee, Subcommittee Chair.

46

2008 - 2011 American Physical Socieity, Division of Atomic, Molecular, and Optical Physics,Program Committee, Member.

2007 - 2008 Constellation-X Facility Science Team, Panel on Plasma Diagnostics and AtomicAstrophysics.

2007 - 2012 American Astronomical Soc., Working Group on Laboratory Astrophys., Member.2003 - present South East Laboratory Astrophysics Consortium, Executive Committee Member.

Conference Organizing Committees and Service

06/2018 American Astronomical Society, Laboratory Astrophysics Division Meeting, Science Or-ganizing Committee.

06/2017 American Astronomical Society, Laboratory Astrophysics Division Meeting, Science Or-ganizing Committee.

06/2016 American Astronomical Society, Laboratory Astrophysics Division Meeting, Science Or-ganizing Committee.

08/2015 International Astronomical Union, Focus Meeting, Science Organizing Committee (Bridg-ing Laboratory Astrophysics and Astronomy).

08/2014 American Astronomical Society, High Energy Astrophysics Division, Session Organizerand Chair (Bridging Laboratory and High Energy Astrophysics).

06/2014 American Astronomical Society, Laboratory Astrophysics Division Meeting, Science Or-ganizing Committee.

07/2013 International Conference on Photonic, Electronic, and Atomic Collisions, Science Orga-nizing Committee.

07/2013 Solar, Heliospheric, and INterplanetary Environment (SHINE) Conference, Session Co-Organizer and Chair (Abundances in the Solar Atmosphere and in the Solar Wind).

07/2013 Fifth International Workshop on Electrostatic Storage Devices, Session Chair (StorageRings II).

06/2013 American Astronomical Society, Laboratory Astrophysics Division Meeting, Science Or-ganizing Committee.

04/2013 American Astronomical Society, High Energy Astrophysics Division, Session Organizerand Chair (Bridging Laboratory and High Energy Astrophysics).

07/2012 Solar, Heliospheric, and INterplanetary Environment (SHINE) Conference, Session Orga-nizer and Chair (Advances in Understanding the Solar Wind through SpectroscopicObservations).

06/2012 American Astronomical Society, Meeting within a Meeting, Science Organizing Committee(Bridging Laboratory and Astrophysics).

06/2012 American Physical Society, Division of Atomic and Molecular Physics, Session Proposerand Chair (Atomic and Molecular Astrophysics) and Session Proposer (AMO Ap-plications).

07/2011 International Conference on Photonic, Electronic, and Atomic Collisions, Science Orga-nizing Committee.

06/2011 American Physical Society, Division of Atomic and Molecular Physics, Science OrganizingCommittee, Session Proposer (The X-Ray Universe) and Session Chair (RecentAdvances in Collision Studies).

10/2010 NASA-sponsored 2010 Laboratory Astrophysics Workshop, Science Organizing Commit-tee, Chair.

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08/2010 Eighth International Conference on Dissociative Recombination: Theory, Experiments &Applications, Session Chair.

05/2010 American Physical Society, Division of Atomic and Molecular Physics, Science OrganizingCommittee, Session Proposer and Chair (Atomic and Molecular Physics in theEarly Universe).

05/2010 American Astronomical Society, Meeting within a Meeting, Science Organizing Committee(Bridging Laboratory and Astrophysics: Frontiers in Plasma Astrophysics).

01/2010 American Astronomical Society, Special Session Organizer and Chair, (Planetary Cosme-tology).

05/2009 American Physical Society, Division of Atomic and Molecular Physics, Science OrganizingCommittee, Session Proposer and Chair, (Breakthroughs in Molecular Physics).

06/2008 American Astronomical Society, Topical Session, Science Organizing Committee, (BridgingLaboratory and Astrophysics).

05/2008 American Physical Society, Division of Atomic and Molecular Physics, Session Proposerand Chair, (The Molecular Basis of Astrobiology).

02/2008 Atomic Ion Stage Abundances in Astrophysical Plasmas, South East Laboratory Astro-physics Workshop, Science Organizing Committee and Local Organizing Commit-tee.

04/2006 US-Japan Symposium on Collision-Induced X-Ray Emission and Antimatter Physics, Ses-sion Chair.

02/2006 NASA Laboratory Astrophysics Workshop 2006, Science Organizing Committee and Ses-sion Chair.

06/2005 American Astronomical Society, Topical Session, Science Organizing Committee and Ses-sion Chair (Highlights in Laboratory Astrophysics: Bringing Together Users andProviders).

10/2004 Joint Meeting of the 14th International Toki Conference on Plasma Physics and ControlledNuclear Fusion and the 4th International Conference on Atomic and Molecular Dataand Their Applications, Session Chair (Astrophysics).

06/2004 Solar Physics Division and American Astronomical Society Joint Meeting, Topical SessionOrganizer and Chair (Improving Our Understanding of Solar and Stellar Coronae:Recent Efforts in Atomic Physics).

06/2003 South East Laboratory Astrophysics Workshop, Science Organizing Committee and SessionCo-leader (X-ray/EUV Working Group).

11/2000 Photoionized Plasmas 2000, Science Organizing Committee and Session Chair (BasicAtomic/Molecular Processes).

Grant Proposals Reviewed

Numerous grant proposals reviewed for the following agencies and programs:

Columbia University’s Research Initiatives in Science and Engineering (RISE) program.Department of Energy Opportunities in Basic Plasma Science.Deutsche Forschungsgemeinschaft (DFG, German Research Foundation) Priority Program

(Schwerpunktprogramm, SPP) on the physics of the interstellar medium.European Research Council Starting Grant ProgramIsrael Science FoundationPPARC (the UK Particle Physics and Astronomy Research Council).NASA Astronomy and Physics Research and Analysis Program.

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NASA Astrophysics Research and Analysis Program.NASA Astrophysics Theory Program/Beyond Einstein Foundation Science.NASA Herschel Theoretical Research and Laboratory Astrophysics Programs.NASA Heliophysics Guest Investigators Program.NASA Heliophysics Research Program.NASA Sun-Earth Connection Program.NASA Planetary Atmospheres Program.NASA Postdoctoral Program.NSF Division of Atmospheric and Geospace Sciences: Solar, Heliospheric, and INterplanetary

Environment (SHINE) Program.NSF Graduate Research Fellowship Program.NSF Division of Physics: Atomic, Molecular, and Optical Physics - Theory Program.NSF Division of Physics: Major Research Instrumentation Program.NSF Division of Physics: Physic Frontier Centers.

Awards Committees

New York Academy of Sciences Blavatnik Award for Young Scientists.

Referee for Journal and Encyclopedia Articles

Served as referee for the following journals and publications:

Astronomical JournalAstronomy and AstrophysicsCanadian Journal of PhysicsChinese Physics BJournal of Chemical PhysicsJournal of Plasma and Fusion Research SeriesJournal of Physical Chemistry LettersJournal of Physics: Conference SeriesJournal of Quantitative Spectroscopy and Radiative TransferMonthly Notices of the Royal Astronomical SocietyNatureThe Astrophysical Journal LettersThe Astrophysical JournalThe Astrophysical Journal Supplemental SeriesPhysica ScriptaPhysical Letters APhysical Review APhysical Review LettersReports on Progress in PhysicsReview of Modern PhysicsWiley Encyclopedia of Electrical and Electronic Engineering

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Journal Editorships

04/2017-present American Astronomical Society Journals, Science Editor.

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