CURRICULUM VITAE: Jasper S. Halekas Address: Department of Physics and Astronomy, University of Iowa, 414 Van Allen, Iowa City, IA 52242. Work: (319) 335-1929 Cell: (510) 299-8571 E-mail: jasper-halekas@uiowa.edu Web: http://www.physics.uiowa.edu/~jhalekas

Dr. Jasper S. Halekas is an Associate Professor in the Department of Physics and Astronomy at the University of Iowa. Dr. Halekas studies plasma physics in the interplanetary medium and the environments of planets and moons. Recent research topics include foreshocks of planetary bodies, solar wind interactions with the Martian magnetosphere, small-scale shocks at the Moon, near-surface plasma sheathes, basic processes and sources of instabilities in plasma wakes, plasma interactions with sub-ion inertial scale magnetic fields, magnetic reconnection in the Martian magnetotail, and the composition and dynamics of the tenuous lunar atmosphere. Prof. Halekas is the instrument lead for the Solar Wind Ion Analyzer for MAVEN, instrument lead for the SWEAP-SPAN electron instruments for Solar Probe Plus, acting deputy PI for ARTEMIS, a Guest Investigator on LADEE, and the lead plasma investigator for the NASA Solar System Exploration Research Virtual Institute DREAM2 team. Prof. Halekas currently serves as an associate editor for Journal of Geophysical Research Planets and a member of the Lunar Exploration Analysis Group Executive Committee.

Education: Ph.D. Physics, U. C. Berkeley, 2003. M.A. Physics, U. C. Berkeley, 2000. B.S. Physics, B.S. Math, Magna Cum Laude, With Honors, U.W., 1997. Professional Experience: Associate Professor, University of Iowa, 2014-present Associate Research Physicist II, U.C. Berkeley, 2011-2014. Assistant Research Physicist V, U.C. Berkeley, 2009-2011. Assistant Research Physicist III, U.C. Berkeley, 2007-2009. Assistant Research Physicist I, U.C. Berkeley, 2005-2007. Visiting Postdoctoral Research Physicist, U.C. Berkeley, 2003-2005. Graduate Student Researcher with Prof. Robert Lin, U. C. Berkeley, 1998-2003. Undergraduate Research with Dr. Elden Whipple, U.W., 1996-1998. Undergraduate Research with Dr. Davin Larson, U. C. Berkeley, Summer 1995. Undergraduate Research with Dr. Robert Winglee, U.W., 1993-1994. Professional Memberships: American Geophysical Union.

Awards and Honors: Exceptional Scientific Achievement Medal, NASA, 2016. Group Achievement Award for Science Team for MAVEN Mission, NASA, 2016. Editor’s Citation for Excellence in Refereeing – Geophysical Research Letters, 2015. Exceptional Achievement for Engineering Team for MAVEN Mission, NASA, 2014. NASA Graduate Student Researchers Program, U. C. Berkeley, 2001-2003. NASA Space Grant Summer Fellowship, U. C. Berkeley, Summer 2000. Department of Education Fellowship, U. C. Berkeley, 1998-1999. NASA Space Grant Scholarship, University of Washington, 1993-1997. Teaching: Semester Course Title Enrollment A B C DSpring2016

PHYS1702 PhysicsII 24 5.46 5.54 5.77 5.85

Spring2016

PHYS7990

Research:Physics 2

Fall2015 PHYS1511

CollegePhysicsI 284 4.50 4.93 5.40 4.90

Fall2015 PHYS7990

Research:Physics 2 6.00 6.00 6.00 6.00

Summer2015

PHYS7990

Research:Physics 2

Spring2015

PHYS1702 PhysicsII 23 5.56 5.44 5.94

ACE A = This instructor is effective in teaching the subject matter of the course. ACE B = This instructor communicates well. ACE C = This instructor is prepared for each class. ACE D = The instructor supported student learning in this class. Supervisees: 2014- Suranga Ruhunusiri (Postdoctoral Researcher) 2015- Jeff Walker (Postdoctoral Researcher) Summer ’15 Devin Parker (Undergraduate Student) Summer ‘15 Jacob Isbell (Undergraduate Student) 2015- Gian Andreone (Graduate Student) 2015- Stephanie Howard (Graduate Student) 2015 Joseph Sink (Undergraduate Student) 2015- Staci Tiedeken (Graduate Student) 2016- Frank Schmitz (Undergraduate Student) 2016- Charles Lue (Postdoctoral Researcher)

2016- Kallin Khan (Undergraduate Student) 2016- Caleb Raman (Undergraduate Student) 2016- Tianshi Xie (Undergraduate Student) 2016- Logan Kelly Reed (Undergraduate Student) Advisees: 2015- Staci Tiedeken (Master’s Student) 2015- Gian Andreone (Graduate Student) 2015- Stephanie Howard (Graduate Student) Professional Service: Lunar Exploration Analysis Group: Executive committee member (current). Associate Editor for JGR Planets (current). Program Committee Member, Exploration Science Forum Meeting, 2016. Reviewer for 6 articles in JGR, GRL, 2016. Reviewer for NASA mission phase A proposal, 2016. External reviewer for five NASA research and analysis programs, 2016. Review panel chair for NASA research and analysis program, 2015. External reviewer for five NASA research and analysis programs, 2015. External reviewer for two EPSCOR proposals, 2015. External reviewer for two major proposals to Swedish National Space Board, 2015. Reviewer for 9 articles in JGR, GRL, Physics of Plasmas, 2015. Guest editor for a special issue of Earth Planets Space with results from an Alfven conference on

“Comparative Studies of the Plasma at Non-magnetized Planets/Moons”, 2011. Referee for over 60 articles in GRL, JGR, Meteorit. Planet. Sci., Earth Planets Space, Space Sci.

Rev., and Icarus, pre-2015. Review panelist for five NASA research and analysis programs, pre-2015. Member of Critical Design Review panel for BARREL mission, 2011. Organizer of AGU sessions on “The Dynamic Lunar Environment”, “Plasma Interaction with

Airless Bodies” and “Moon-Plasma Interactions Throughout the Solar System”. Co-organizer for ISSI group studying “Kinetic Plasma Processes at Airless Bodies”, 2011-2015. Departmental, College, and University Service: 11/21/2014 Hawkeye Visit Day: Represented department at “Exploring Majors Fair” and

“Science at Iowa” 5/22/2015 Served on Comprehensive Exam Committee for Robert Holdaway 2015- Served on Departmental EO Committee

Outreach: 12/02/2015 Presentation to MAVEN educators (high school teachers) 11/06/2015 Interview with WMT radio (MAVEN First Results) 11/06/2015 River to River on Iowa Public Radio (MAVEN First Results) 11/05/2015 Interview with Discovery Daily Planet (MAVEN First Results) 11/05/2015 NASA Science Update on NASA TV (MAVEN First Results) 11/05/2015 Interview with The Gazette (MAVEN First Results) 11/05/2015 Interview with WHO radio (MAVEN First Results) 11/05/2015 Interview with KCRG (MAVEN First Results) 11/05/2015 Interview with KGAN (MAVEN First Results) 11/05/2015 Interview with KWWL (MAVEN First Results) 11/04/2015 Interview with the NY Times (Subject: MAVEN First Results) 10/06/2015 River to River on Iowa Public Radio (Subject: Mars) 09/29/2015 Interview with KCRG (Subject: Mars Water) 08/10/2015 Interview with The Gazette (Subject: Perseids) 08/01/2015 Public Talk at Sugar Bottom Campground (Subject: Moon) 07/15/2015 Talk of Iowa on Iowa Public Radio (Subject: New Horizons) 07/14/2015 Interview with The Gazette (Subject: New Horizons) 07/13/2015 Interview with CBS2/FOX28 (Subject: New Horizons) 06/13/2015 Cedar Amateur Astronomer’s Public Night Talk 03/27/2015 Interview with Des Moines Register (Subject: Mars One) 01/13/2015 River to River on Iowa Public Radio (Subject: MAVEN) 12/15/2014 American Geophysical Union Press Conference on MAVEN Results 12/02/2014 Interview with Daily Iowan TV (Subject: MAVEN) 11/24/2014 Interview with The Gazette (Subject: MAVEN) 11/20/2014 Interview with Iowa Now (Subject: MAVEN) Current and Pending Funding: A. Current Support

Project Title: Start-Up Funding for Jasper Halekas Principal Investigator: Jasper Halekas Source of Support: University of Iowa Start-Up Performance Period: 08/16/2014 – 08/15/2017 Level of Effort Committed: 08/2014-08/2015 – 0.22 WY

08/2015-08/2016 – 0.22 WY 08/2016-08/2017 – 0.00 WY Note: Two summer months will be provided in the first two years only should the PI not receive external funding to cover summer salary support

Total UI Funding: $509,986.00

Project Title: Quantifying the Links Between the Space Plasma Environment and the Lunar Dusty Atmosphere: A Virtual Plasma Instrument for LADEE

Principal Investigator: Jasper Halekas Source of Support: NASA Grant No. NNX14AR24G Agency Point of Contact: Sarah Noble, Telephone: 202-358-2492, Email:

SARAH.NOBLE-1@NASA.GOV Performance Period: 09/09/2014 – 09/08/2016 Level of Effort Committed: 09/2014-08/2015 – 0.14 WY (1.25 summer mo.)

09/2015-08/2016 – 0.00 WY Total UI Funding: $152,815.76

Project Title: Dynamic Response of Environments at Asteroids, the Moon,

and Moons of Mars (DREAM2) Principal Investigator: Jasper Halekas Source of Support: NASA Grant No. NNX15AH15A Agency Point of Contact: William Farrell, Telephone: 301-286-4446, Email:

william.m.farrell@nasa.gov Performance Period: 03/20/2015 – 03/19/2019 Level of Effort Committed: 03/2015-03/2019 – 0.11 WY (1 summer mo./yr.) Total UI Funding: $363,000.00 Project Title: Investigating the Interaction of Solar Wind Protons with the

Moon using ARTEMIS Data Principal Investigator: Jasper Halekas Source of Support: University of California, Berkeley (prime sponsor is NASA

#NNX15AP89G) Performance Period: 04/24/2015 – 04/23/2018 Level of Effort Committed: 04/2015-04/2018 – 0.06 WY (0.5 summer mo./yr.) Total UI Funding: $129,738.00 Project Title: BIFOCAL: A Next-Generation Electron Instrument for Solar

Wind Monitoring and High Phase Space Resolution Measurements

Principal Investigator: Jasper Halekas Source of Support: NASA Performance Period: 02/28/2016 – 02/27/2019 Level of Effort Committed: 02/2016-02/2019 – 0.11 WY (1 summer mo./yr.) Total UI Funding: $608,853,00 Project Title: MAVEN/SWIA Extended Mission Principal Investigator: Jasper Halekas

Source of Support: University of Colorado Boulder (prime sponsor is NASA) Performance Period: 10/01/2015 – 09/30/2016 Level of Effort Committed: 10/2015-09/2016 – 0.20 WY (1.85 summer mo./yr.) Total UI Funding: $210,000.00 Project Title: SPAN-Electrons - SWEAP Phase C/D Principal Investigator: Jasper Halekas Source of Support: University of California, Berkeley (prime sponsor is NASA) Performance Period: 08/16/2014 – 08/31/2018 Level of Effort Committed: 08/2014-12/2014 – 0.00 WY (0 summer mo.)

01/2015-12/2015 – 0.08 WY (0.75 summer mo.) 01/2016-12/2016 – 0.08 WY (0.75 summer mo.) 01/2017-12/2017 – 0.08 WY (0.75 summer mo.) 01/2018-08/2018 – 0.11 WY (1 summer mo.)

Total UI Funding: $167,818.00 Project Title: HALO (Hydrogen Albedo Lunar Orbiter) Principal Investigator: Michael Collier Source of Support: NASA Goddard Spaceflight Center (Grant NNX16AD03G) Performance Period: 12/16/2015 – 12/15/2016 Level of Effort Committed: 0 summer months Total UI Funding: $45,000

B. Pending Support

Project Title: Global Kinetic Simulations of the Solar Wind Interaction with the Moon

Principal Investigator: Yuri Omelchenko Source of Support: Space Sciences Institute (Prime Sponsor NASA) Performance Period: 03/01/2017 – 02/29/2020 Level of Effort Committed: 03/2017-02/2020 – 0.04 WY (0.5 summer mo./yr.) Total UI Funding: $135,730.00 Project Title: Hydrogen Precipitation in Planetary Atmospheres Principal Investigator: Robert Lillis Source of Support: University of California Berkeley (Prime Sponsor NASA) Performance Period: 03/01/2017 – 02/29/2020 Level of Effort Committed: 03/2017-02/2020 – 0.04 WY (0.5 summer mo./yr.) Total UI Funding: $135,730.00

Project Title: MAVEN/SWIA Extended Mission 2 Principal Investigator: Jasper Halekas

Source of Support: University of Colorado Boulder (prime sponsor is NASA) Performance Period: 10/01/2016 – 09/30/2018 Level of Effort Committed: 10/2016-09/2018 – 0.40 WY (1.85 summer mo./yr.) Total UI Funding: $485,000.00

Invited Conference Presentations: J.S.Halekas,B.M.Jakosky,J.G.Luhmann,D.A.Brain,D.L.Mitchell,R.J.Lillis,J.P.McFadden,J.

Connerney,MAVENobservationsofsolarwindinteractionwithMars,COSPAR,2016.J.S.Halekas,M.Benna,A.R.Poppe,P.Mahaffy,R.Elphic,Observationsofcarbon-bearing

ionsfromthelunarexosphere,COSPAR,2016.J.S.Halekas,Whatcanelectronreflectometrytellusaboutlunarmagnetism?,Lunar

PaleomagnetismWorkshop,Corsica,2016.J.S.Halekas,D.L.Mitchell,J.P.McFadden,D.Larson,J.E.P.Connerney,J.Espley,R.E.Ergun,

L.Andersson,J.G.Luhmann,R.J.Lillis,D.A.Brain,S.Ruhunusiri,Y.Harada,T.Hara,S.Curry,G.DiBraccio,MAVENobservationsoftheMartianmagnetosphereanditsresponsetosolarwinddrivers,LunarandPlanetaryScienceConference,2015.

J.S.Halekas,ARTEMIS:SummaryofnewscienceattheMoon,LunarScienceForum,2013.J.S. Halekas, ARTEMIS: Results from the first year, LEAG, 2012. J.S. Halekas, ARTEMIS observations of pickup ions around the Moon, Cluster-THEMIS

Workshop, 2012. J.S. Halekas, First results from the ARTEMIS mission, Lunar Science Forum, 2012. J.S. Halekas, ARTEMIS and the Moon's Sphere of Influence, Dust, Atmosphere and Plasma:

Moon and Small Bodies, 2012. J.S. Halekas and V. Angelopoulos, Results from the ARTEMIS mission, 39th European Physical

Society Conference on Plasma Physics/16th International Congress on Plasma Physics, 2012.

J.S.Halekas,V.Angelopoulos,D.G.Sibeck,K.Khurana,C.T.Russell,G.T.Delory,J.P.McFadden,J.W.Bonnell,D.Larson,LunarplasmaandexosphericsciencefromARTEMIS,LunarDust,Plasma&Atmosphere:TheNextSteps,InvitedPresentation,2010.

J.S. Halekas and R.P. Lin, Determining lunar crustal magnetic fields and their origin, Workshop on Science Associated with the Lunar Exploration Architecture, Invited Presentation, 2007.

J.S. Halekas, D.A. Brain, R.P. Lin, and D.L. Mitchell, Global vs. mini-magnetospheres: Differences and Similarities, Spring AGU 2007, SM34A-06, Invited Presentation, 2007.

J.S. Halekas, D.A. Brain, L.M. Peticolas, R.P. Lin, J.G. Luhmann, D.L. Mitchell, S.W. Bougher, and D. Lummerzheim, Origin and expected variability of Martian aurorae, COSPAR 2006, C3.2-0010-06, Invited Presentation, 2006.

J.S. Halekas, D.A. Brain, R.P. Lin, and D.L. Mitchell, Comparative mini-magnetospheres: Moon and Mars, COSPAR 2006, D3.3-0022-06, Invited Presentation, 2006.

J.S. Halekas, Solar wind interaction with the lunar environment, Fall AGU 2005, SH41C-01, Invited Presentation, 2005.

Invited Seminars: J.S. Halekas, Dynamic Mars: First Results from MAVEN, University of Minnesota Space

Physics Seminar, 2016. J.S. Halekas, Dynamic Mars: First Results from MAVEN, UCLA EPSS Colloquium, 2016. J.S. Halekas, Blowin’ in the Wind: First Results from MAVEN, University of Iowa Astronomy

and Space Physics Seminar, 2015. J.S. Halekas, MAVEN, Mars Express MARSIS/Sharad Team Meeting, 2015. J.S.Halekas,Smallbutsurprising:ThecuriousmagneticfieldsoftheMoon,American

PhysicalSocietyPrairieSectionPlenary,2014.J.S.Halekas,Lunarmagneticfieldsandtheir“shocking”effectsonthesurfaceandspace

environment,UniversityofIowaAstronomyandSpacePhysicsSeminar,2014.J.S. Halekas, ARTEMIS explores the Lunar Environment, University of Michigan Atmospheric

Oceanic and Space Sciences Seminar, 2014. J.S. Halekas, ARTEMIS explores the Lunar Environment, NASA Headquarters Brownbag

Seminar, 2014. J.S. Halekas, Plasma interactions with small-scale magnetic fields: Current understanding and

unsolved problems, Lunar Workshop, Kyung-Hee University, 2014. J.S. Halekas, Plasma physics in the Martian magnetosphere: A view towards MAVEN, U. Iowa

Plasma Physics Seminar, 2014. J.S. Halekas, The lunar wake: A natural plasma physics laboratory, University of Iowa Physics

and Astronomy Colloquium, 2014. J.S. Halekas, Plasma physics in the Martian magnetosphere: A view towards MAVEN, UNH

Space Physics Seminar, 2014. J.S. Halekas, The lunar wake: A natural plasma physics laboratory, UNH Physics Colloquium,

2014. J.S. Halekas, Ions from the Moon: Sources and implications, UCLA Space Physics Seminar,

2013. J.S. Halekas, The tenuous lunar exosphere: A view from ARTEMIS on the eve of LADEE, U.C.

Santa Cruz Earth and Planetary Sciences Seminar, 2013. J.S. Halekas, First results from ARTEMIS: The Moon's sphere of influence, Lunar and

Planetary Institute Seminar, 2012. J.S. Halekas, Using ARTEMIS observations to connect the space plasma environment to the

surface and exosphere, NLSI Director’s Seminar, 2012. J.S. Halekas, ARTEMIS observations of pickup ions: Tying space plasma data to the surface and

exosphere, ARTEMIS Science Working Team, 2012. J.S. Halekas, Lunar precursor effects, U.C. Berkeley Physics 290B Seminar, 2011 J.S. Halekas, Lunar swirls: At the intersection of plasma physics and geology, Swirl workshop,

2011. J.S. Halekas, Evidence for reconnection at Mars, Bay Area Consortium for Heliophysics

symposium, 2010. J.S. Halekas, The lunar wake: Current understanding and first results from ARTEMIS, CSSAR

seminar, 2010. J.S. Halekas, Fundamental plasma physics in the Martian magnetotail and boundary layer,

CSSAR seminar, 2010.

J.S. Halekas, The lunar plasma wake: Waiting for ARTEMIS, UCLA Earth and Space Sciences Seminar, 2010.

J.S. Halekas, Lunar electric fields: The view from Lunar Prospector, ISAS Seminar, 2009. J.S. Halekas, The dynamic lunar environment, SETI Seminar, 2009. J.S. Halekas, Space physics in the dynamic lunar environment, U.C. Berkeley Physics 290B

Seminar, 2009. J.S. Halekas, The enigma of lunar magnetism, University of Washington Earth and Space

Sciences Special Lecture, 2008. J.S. Halekas, Lunar surface charging: Lunar Prospector observations, University of Washington

Earth and Space Sciences Research Seminar, 2008. J.S. Halekas, Martian aurora, Space Sciences Laboratory Colloquium, 2006. J.S. Halekas, Lunar crustal magnetism: New results from Lunar Prospector, Division of

Geological and Planetary Sciences Seminar, California Institute of Technology, 2000. J.S. Halekas, Lunar crustal magnetism: Results from Lunar Prospector, Physics 290B Seminar,

U.C. Berkeley, 2000.

Publications

[1] C. Grava, K. D. Retherford, D. M. Hurley, P. D. Feldman, G. R. Gladstone, T. K. Greathouse,J. C. Cook, S. A. Stern, W. R. Pryor, J. S. Halekas, and D. E. Kaufmann. Lunar exospheric heliumobservations of LRO/LAMP coordinated with ARTEMIS. Icarus, 273:36–44, July 2016.

[2] D. M. Hurley, J. C. Cook, M. Benna, J. S. Halekas, P. D. Feldman, K. D. Retherford, R. R. Hodges,C. Grava, P. Maha↵y, G. R. Gladstone, T. Greathouse, D. E. Kaufmann, R. C. Elphic, and S. A. Stern.Understanding temporal and spatial variability of the lunar helium atmosphere using simultaneousobservations from LRO, LADEE, and ARTEMIS. Icarus, 273:45–52, July 2016.

[3] Y. Harada and J. S. Halekas. Upstream Waves and Particles at the Moon. Washington DC American

Geophysical Union Geophysical Monograph Series, 216:307–322, February 2016.

[4] J. S. Halekas, D. A. Brain, S. Ruhunusiri, J. P. McFadden, D. L. Mitchell, C. Mazelle, J. E. P.Connerney, Y. Harada, T. Hara, J. R. Espley, G. A. DiBraccio, and B. M. Jakosky. Plasma cloudsand snowplows: Bulk plasma escape from Mars observed by MAVEN. Geophysical Research Letters,43:1426–1434, February 2016.

[5] N. J. T. Edberg, A. I. Eriksson, E. Odelstad, E. Vigren, D. J. Andrews, F. Johansson, J. L. Burch,C. M. Carr, E. Cupido, K.-H. Glassmeier, R. Goldstein, J. S. Halekas, P. Henri, C. Koenders, K. Mandt,P. Mokashi, Z. Nemeth, H. Nilsson, R. Ramstad, I. Richter, and G. S. Wieser. Solar wind interactionwith comet 67P: Impacts of corotating interaction regions. Journal of Geophysical Research (Space

Physics), 121:949–965, February 2016.

[6] Y. Harada, D. L. Mitchell, J. S. Halekas, J. P. McFadden, C. Mazelle, J. E. P. Connerney, J. Espley,D. A. Brain, D. E. Larson, R. J. Lillis, T. Hara, R. Livi, G. A. DiBraccio, S. Ruhunusiri, and B. M.Jakosky. MAVEN observations of energy-time dispersed electron signatures in Martian crustal magneticfields. Geophysical Research Letters, 43:939–944, February 2016.

[7] T. A. Nordheim, G. H. Jones, J. S. Halekas, E. Roussos, and A. J. Coates. Surface charging andelectrostatic dust acceleration at the nucleus of comet 67P during periods of low activity. Planetary

and Space Sciences, 119:24–35, December 2015.

[8] A. R. Poppe, M. I. Zimmerman, J. S. Halekas, and W. M. Farrell. The electrostatic plasma environmentof a small airless body under non-aligned plasma flow and UV conditions. Planetary and Space Sciences,119:111–120, December 2015.

[9] J. S. Halekas, E. R. Taylor, G. Dalton, G. Johnson, D. W. Curtis, J. P. McFadden, D. L. Mitchell,R. P. Lin, and B. M. Jakosky. The Solar Wind Ion Analyzer for MAVEN. Space Sciences Reviews,195:125–151, December 2015.

[10] B. M. Jakosky, R. P. Lin, J. M. Grebowsky, J. G. Luhmann, D. F. Mitchell, G. Beutelschies, T. Priser,M. Acuna, L. Andersson, D. Baird, D. Baker, R. Bartlett, M. Benna, S. Bougher, D. Brain, D. Car-son, S. Cau↵man, P. Chamberlin, J.-Y. Chaufray, O. Cheatom, J. Clarke, J. Connerney, T. Cravens,D. Curtis, G. Delory, S. Demcak, A. DeWolfe, F. Eparvier, R. Ergun, A. Eriksson, J. Espley, X. Fang,D. Folta, J. Fox, C. Gomez-Rosa, S. Habenicht, J. Halekas, G. Holsclaw, M. Houghton, R. Howard,M. Jarosz, N. Jedrich, M. Johnson, W. Kasprzak, M. Kelley, T. King, M. Lankton, D. Larson,F. Leblanc, F. Lefevre, R. Lillis, P. Maha↵y, C. Mazelle, W. McClintock, J. McFadden, D. L. Mitchell,F. Montmessin, J. Morrissey, W. Peterson, W. Possel, J.-A. Sauvaud, N. Schneider, W. Sidney, S. Spara-cino, A. I. F. Stewart, R. Tolson, D. Toublanc, C. Waters, T. Woods, R. Yelle, and R. Zurek. The MarsAtmosphere and Volatile Evolution ( MAVEN) Mission. Space Sciences Reviews, 195:3–48, December2015.

[11] J. G. Luhmann, C. Dong, Y. Ma, S. M. Curry, D. Mitchell, J. Espley, J. Connerney, J. Halekas, D. A.Brain, B. M. Jakosky, and C. Mazelle. Implications of MAVEN Mars near-wake measurements andmodels. Geophysical Research Letters, 42:9087–9094, November 2015.

[12] F. Leblanc, R. Modolo, S. Curry, J. Luhmann, R. Lillis, J. Y. Chaufray, T. Hara, J. McFadden,J. Halekas, F. Eparvier, D. Larson, J. Connerney, and B. Jakosky. Mars heavy ion precipitating flux as

1

measured by Mars Atmosphere and Volatile EvolutioN. Geophysical Research Letters, 42:9135–9141,November 2015.

[13] S. M. Curry, J. G. Luhmann, Y. J. Ma, C. F. Dong, D. Brain, F. Leblanc, R. Modolo, Y. Dong,J. McFadden, J. Halekas, J. Connerney, J. Espley, T. Hara, Y. Harada, C. Lee, X. Fang, and B. Jakosky.Response of Mars O+ pickup ions to the 8 March 2015 ICME: Inferences from MAVEN data-basedmodels. Geophysical Research Letters, 42:9095–9102, November 2015.

[14] M. Steckiewicz, C. Mazelle, P. Garnier, N. Andre, E. Penou, A. Beth, J.-A. Sauvaud, D. Toublanc, D. L.Mitchell, J. P. McFadden, J. G. Luhmann, R. J. Lillis, J. E. P. Connerney, J. R. Espley, L. Andersson,J. S. Halekas, D. E. Larson, and B. M. Jakosky. Altitude dependence of nightside Martian suprathermalelectron depletions as revealed by MAVEN observations. Geophysical Research Letters, 42:8877–8884,November 2015.

[15] A. Rahmati, D. E. Larson, T. E. Cravens, R. J. Lillis, P. A. Dunn, J. S. Halekas, J. E. Connerney,F. G. Eparvier, E. M. B. Thiemann, and B. M. Jakosky. MAVEN insights into oxygen pickup ions atMars. Geophysical Research Letters, 42:8870–8876, November 2015.

[16] Y. Dong, X. Fang, D. A. Brain, J. P. McFadden, J. S. Halekas, J. E. Connerney, S. M. Curry, Y. Harada,J. G. Luhmann, and B. M. Jakosky. Strong plume fluxes at Mars observed by MAVEN: An importantplanetary ion escape channel. Geophysical Research Letters, 42:8942–8950, November 2015.

[17] J. S. Halekas, J. P. McFadden, J. E. P. Connerney, J. R. Espley, D. A. Brain, D. L. Mitchell, D. E.Larson, Y. Harada, T. Hara, S. Ruhunusiri, and B. M. Jakosky. Time-dispersed ion signatures observedin the Martian magnetosphere by MAVEN. Geophysical Research Letters, 42:8910–8916, November2015.

[18] T. Hara, D. L. Mitchell, J. P. McFadden, K. Seki, D. A. Brain, J. S. Halekas, Y. Harada, J. R. Espley,G. A. DiBraccio, J. E. P. Connerney, L. Andersson, C. Mazelle, and B. M. Jakosky. Estimation of thespatial structure of a detached magnetic flux rope at Mars based on simultaneous MAVEN plasma andmagnetic field observations. Geophysical Research Letters, 42:8933–8941, November 2015.

[19] M. F. Vogt, P. Withers, P. R. Maha↵y, M. Benna, M. K. Elrod, J. S. Halekas, J. E. P. Connerney, J. R.Espley, D. L. Mitchell, C. Mazelle, and B. M. Jakosky. Ionopause-like density gradients in the Martianionosphere: A first look with MAVEN. Geophysical Research Letters, 42:8885–8893, November 2015.

[20] J. S. Halekas, R. J. Lillis, D. L. Mitchell, T. E. Cravens, C. Mazelle, J. E. P. Connerney, J. R. Espley,P. R. Maha↵y, M. Benna, B. M. Jakosky, J. G. Luhmann, J. P. McFadden, D. E. Larson, Y. Harada,and S. Ruhunusiri. MAVEN observations of solar wind hydrogen deposition in the atmosphere of Mars.Geophysical Research Letters, 42:8901–8909, November 2015.

[21] Y. Harada, J. S. Halekas, J. P. McFadden, D. L. Mitchell, C. Mazelle, J. E. P. Connerney, J. Espley,D. E. Larson, D. A. Brain, G. A. DiBraccio, S. M. Curry, T. Hara, R. Livi, S. Ruhunusiri, and B. M.Jakosky. Marsward and tailward ions in the near-Mars magnetotail: MAVEN observations. Geophysical

Research Letters, 42:8925–8932, November 2015.

[22] G. Collinson, J. Halekas, J. Grebowsky, J. Connerney, D. Mitchell, J. Espley, G. DiBraccio, C. Mazelle,J.-A. Sauvaud, A. Fedorov, and B. Jakosky. A hot flow anomaly at Mars. Geophysical Research Letters,42:9121–9127, November 2015.

[23] G. A. DiBraccio, J. R. Espley, J. R. Gruesbeck, J. E. P. Connerney, D. A. Brain, J. S. Halekas,D. L. Mitchell, J. P. McFadden, Y. Harada, R. Livi, G. Collinson, T. Hara, C. Mazelle, and B. M.Jakosky. Magnetotail dynamics at Mars: Initial MAVEN observations. Geophysical Research Letters,42:8828–8837, November 2015.

[24] Y. Harada, J. S. Halekas, J. P. McFadden, D. L. Mitchell, C. Mazelle, J. E. P. Connerney, J. Esp-ley, D. E. Larson, D. A. Brain, L. Andersson, G. A. DiBraccio, G. A. Collinson, R. Livi, T. Hara,S. Ruhunusiri, and B. M. Jakosky. Magnetic reconnection in the near-Mars magnetotail: MAVENobservations. Geophysical Research Letters, 42:8838–8845, November 2015.

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[25] Y. J. Ma, C. T. Russell, X. Fang, Y. Dong, A. F. Nagy, G. Toth, J. S. Halekas, J. E. P. Connerney,J. R. Espley, P. R. Maha↵y, M. Benna, J. P. McFadden, D. L. Mitchell, and B. M. Jakosky. MHDmodel results of solar wind interaction with Mars and comparison with MAVEN plasma observations.Geophysical Research Letters, 42:9113–9120, November 2015.

[26] B. M. Jakosky, J. M. Grebowsky, J. G. Luhmann, J. Connerney, F. Eparvier, R. Ergun, J. Halekas,D. Larson, P. Maha↵y, J. McFadden, D. F. Mitchell, N. Schneider, R. Zurek, S. Bougher, D. Brain,Y. J. Ma, C. Mazelle, L. Andersson, D. Andrews, D. Baird, D. Baker, J. M. Bell, M. Benna, M. Cha�n,P. Chamberlin, Y.-Y. Chaufray, J. Clarke, G. Collinson, M. Combi, F. Crary, T. Cravens, M. Crismani,S. Curry, D. Curtis, J. Deighan, G. Delory, R. Dewey, G. DiBraccio, C. Dong, Y. Dong, P. Dunn,M. Elrod, S. England, A. Eriksson, J. Espley, S. Evans, X. Fang, M. Fillingim, K. Fortier, C. M.Fowler, J. Fox, H. Groller, S. Guzewich, T. Hara, Y. Harada, G. Holsclaw, S. K. Jain, R. Jolitz,F. Leblanc, C. O. Lee, Y. Lee, F. Lefevre, R. Lillis, R. Livi, D. Lo, M. Mayyasi, W. McClintock,T. McEnulty, R. Modolo, F. Montmessin, M. Morooka, A. Nagy, K. Olsen, W. Peterson, A. Rahmati,S. Ruhunusiri, C. T. Russell, S. Sakai, J.-A. Sauvaud, K. Seki, M. Steckiewicz, M. Stevens, A. I. F.Stewart, A. Stiepen, S. Stone, V. Tenishev, E. Thiemann, R. Tolson, D. Toublanc, M. Vogt, T. Weber,P. Withers, T. Woods, and R. Yelle. MAVEN observations of the response of Mars to an interplanetarycoronal mass ejection. Science, 350:0210, November 2015.

[27] S. Bougher, B. Jakosky, J. Halekas, J. Grebowsky, J. Luhmann, P. Maha↵y, J. Connerney, F. Eparvier,R. Ergun, D. Larson, J. McFadden, D. Mitchell, N. Schneider, R. Zurek, C. Mazelle, L. Andersson,D. Andrews, D. Baird, D. N. Baker, J. M. Bell, M. Benna, D. Brain, M. Cha�n, P. Chamberlin, J.-Y.Chaufray, J. Clarke, G. Collinson, M. Combi, F. Crary, T. Cravens, M. Crismani, S. Curry, D. Curtis,J. Deighan, G. Delory, R. Dewey, G. DiBraccio, C. Dong, Y. Dong, P. Dunn, M. Elrod, S. England,A. Eriksson, J. Espley, S. Evans, X. Fang, M. Fillingim, K. Fortier, C. M. Fowler, J. Fox, H. Groller,S. Guzewich, T. Hara, Y. Harada, G. Holsclaw, S. K. Jain, R. Jolitz, F. Leblanc, C. O. Lee, Y. Lee,F. Lefevre, R. Lillis, R. Livi, D. Lo, Y. Ma, M. Mayyasi, W. McClintock, T. McEnulty, R. Modolo,F. Montmessin, M. Morooka, A. Nagy, K. Olsen, W. Peterson, A. Rahmati, S. Ruhunusiri, C. T. Russell,S. Sakai, J.-A. Sauvaud, K. Seki, M. Steckiewicz, M. Stevens, A. I. F. Stewart, A. Stiepen, S. Stone,V. Tenishev, E. Thiemann, R. Tolson, D. Toublanc, M. Vogt, T. Weber, P. Withers, T. Woods, andR. Yelle. Early MAVEN Deep Dip campaign reveals thermosphere and ionosphere variability. Science,350:0459, November 2015.

[28] D. A. Brain, J. P. McFadden, J. S. Halekas, J. E. P. Connerney, S. W. Bougher, S. Curry, C. F. Dong,Y. Dong, F. Eparvier, X. Fang, K. Fortier, T. Hara, Y. Harada, B. M. Jakosky, R. J. Lillis, R. Livi,J. G. Luhmann, Y. Ma, R. Modolo, and K. Seki. The spatial distribution of planetary ion fluxes nearMars observed by MAVEN. Geophysical Research Letters, 42:9142–9148, November 2015.

[29] C. Dong, Y. Ma, S. W. Bougher, G. Toth, A. F. Nagy, J. S. Halekas, Y. Dong, S. M. Curry, J. G.Luhmann, D. Brain, J. E. P. Connerney, J. Espley, P. Maha↵y, M. Benna, J. P. McFadden, D. L.Mitchell, G. A. DiBraccio, R. J. Lillis, B. M. Jakosky, and J. M. Grebowsky. Multifluid MHD studyof the solar wind interaction with Mars’ upper atmosphere during the 2015 March 8th ICME event.Geophysical Research Letters, 42:9103–9112, November 2015.

[30] J. G. Luhmann, Y.-J. Ma, D. A. Brain, D. Ulusen, R. J. Lillis, J. S. Halekas, and J. R. Espley. Solarwind interaction e↵ects on the magnetic fields around Mars: Consequences for interplanetary andcrustal field measurements. Planetary and Space Sciences, 117:15–23, November 2015.

[31] J. E. P. Connerney, J. R. Espley, G. A. DiBraccio, J. R. Gruesbeck, R. J. Oliversen, D. L. Mitchell,J. Halekas, C. Mazelle, D. Brain, and B. M. Jakosky. First results of the MAVEN magnetic fieldinvestigation. Geophysical Research Letters, 42:8819–8827, November 2015.

[32] J. R. Espley, G. A. DiBraccio, J. E. P. Connerney, D. Brain, J. Gruesbeck, Y. Soobiah, J. Halekas,M. Combi, J. Luhmann, Y. Ma, Y. Jia, and B. Jakosky. A comet engulfs Mars: MAVEN observations ofcomet Siding Spring’s influence on the Martian magnetosphere. Geophysical Research Letters, 42:8810–8818, November 2015.

[33] S. Ruhunusiri, J. S. Halekas, J. E. P. Connerney, J. R. Espley, J. P. McFadden, D. E. Larson, D. L.Mitchell, C. Mazelle, and B. M. Jakosky. Low-frequency waves in the Martian magnetosphere and

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their response to upstream solar wind driving conditions. Geophysical Research Letters, 42:8917–8924,November 2015.

[34] S. Fatemi, H. A. Fuqua, A. R. Poppe, G. T. Delory, J. S. Halekas, W. M. Farrell, and M. Holmstrom.On the confinement of lunar induced magnetic fields. Geophysical Research Letters, 42:6931–6938,September 2015.

[35] J. S. Halekas, M. Benna, P. R. Maha↵y, R. C. Elphic, A. R. Poppe, and G. T. Delory. Detectionsof lunar exospheric ions by the LADEE neutral mass spectrometer. Geophysical Research Letters,42:5162–5169, July 2015.

[36] Y. Harada, J. S. Halekas, A. R. Poppe, Y. Tsugawa, S. Kurita, and J. P. McFadden. Statisticalcharacterization of the foremoon particle and wave morphology: ARTEMIS observations. Journal of

Geophysical Research (Space Physics), 120:4907–4921, June 2015.

[37] M. Benna, P. R. Maha↵y, J. S. Halekas, R. C. Elphic, and G. T. Delory. Variability of helium, neon,and argon in the lunar exosphere as observed by the LADEE NMS instrument. Geophysical Research

Letters, 42:3723–3729, May 2015.

[38] J. S. Halekas, A. R. Poppe, J. P. McFadden, V. Angelopoulos, K.-H. Glassmeier, and D. A. Brain.Evidence for small-scale collisionless shocks at the Moon from ARTEMIS. Geophysical Research Letters,41:7436–7443, November 2014.

[39] Y. Harada, J. S. Halekas, A. R. Poppe, S. Kurita, and J. P. McFadden. Extended lunar precursorregions: Electron-wave interaction. Journal of Geophysical Research (Space Physics), 119:9160–9173,November 2014.

[40] J. S. Halekas, A. R. Poppe, and J. P. McFadden. The e↵ects of solar wind velocity distributions onthe refilling of the lunar wake: ARTEMIS observations and comparisons to one-dimensional theory.Journal of Geophysical Research (Space Physics), 119:5133–5149, July 2014.

[41] A. R. Poppe, M. Sarantos, J. S. Halekas, G. T. Delory, Y. Saito, and M. Nishino. Anisotropic solarwind sputtering of the lunar surface induced by crustal magnetic anomalies. Geophysical Research

Letters, 41:4865–4872, July 2014.

[42] A. R. Poppe, S. Fatemi, J. S. Halekas, M. Holmstrom, and G. T. Delory. ARTEMIS observations ofextreme diamagnetic fields in the lunar wake. Geophysical Research Letters, 41:3766–3773, June 2014.

[43] X.-Z. Zhou, V. Angelopoulos, A. R. Poppe, J. S. Halekas, K. K. Khurana, M. G. Kivelson, S. Fatemi,and M. Holmstrom. Lunar dayside current in the terrestrial lobe: ARTEMIS observations. Journal ofGeophysical Research (Space Physics), 119:3381–3391, May 2014.

[44] T. J. Stubbs, W. M. Farrell, J. S. Halekas, J. K. Burchill, M. R. Collier, M. I. Zimmerman, R. R.Vondrak, G. T. Delory, and R. F. Pfa↵. Dependence of lunar surface charging on solar wind plasmaconditions and solar irradiation. Planetary and Space Sciences, 90:10–27, January 2014.

[45] W. M. Farrell, D. M. Hurley, R. R. Hodges, R. M. Killen, J. S. Halekas, M. I. Zimmerman, and G. T.Delory. Redistribution of lunar polar water to mid-latitudes and its role in forming an OH veneer.Planetary and Space Sciences, 89:15–20, December 2013.

[46] A. R. Poppe, J. S. Halekas, M. Sarantos, and G. T. Delory. The self-sputtered contribution to thelunar exosphere. Journal of Geophysical Research (Planets), 118:1934–1944, September 2013.

[47] J. S. Halekas, A. R. Poppe, J. P. McFadden, and K.-H. Glassmeier. The e↵ects of reflected protons onthe plasma environment of the moon for parallel interplanetary magnetic fields. Geophysical Research

Letters, 40:4544–4548, September 2013.

[48] X.-Z. Zhou, V. Angelopoulos, A. R. Poppe, and J. S. Halekas. ARTEMIS observations of lunar pickupions: Mass constraints on ion species. Journal of Geophysical Research (Planets), 118:1766–1774,September 2013.

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[49] R. J. Lillis, S. Robbins, M. Manga, J. S. Halekas, and H. V. Frey. Time history of the Martian dynamofrom crater magnetic field analysis. Journal of Geophysical Research (Planets), 118:1488–1511, July2013.

[50] Y. Harada, S. Machida, J. S. Halekas, A. R. Poppe, and J. P. McFadden. ARTEMIS observationsof lunar dayside plasma in the terrestrial magnetotail lobe. Journal of Geophysical Research (Space

Physics), 118:3042–3054, June 2013.

[51] W. M. Farrell, A. R. Poppe, M. I. Zimmerman, J. S. Halekas, G. T. Delory, and R. M. Killen. The lunarphotoelectron sheath: A change in trapping e�ciency during a solar storm. Journal of Geophysical

Research (Planets), 118:1114–1122, May 2013.

[52] A. R. Poppe, J. S. Halekas, R. Samad, M. Sarantos, and G. T. Delory. Model-based constraints on thelunar exosphere derived from ARTEMIS pickup ion observations in the terrestrial magnetotail. Journalof Geophysical Research (Planets), 118:1135–1147, May 2013.

[53] J. S. Halekas, A. R. Poppe, G. T. Delory, M. Sarantos, and J. P. McFadden. Using ARTEMIS pickup ionobservations to place constraints on the lunar atmosphere. Journal of Geophysical Research (Planets),118:81–88, January 2013.

[54] W. M. Farrell, J. S. Halekas, R. M. Killen, G. T. Delory, N. Gross, L. V. Bleacher, D. Krauss-Varben,P. Travnicek, D. Hurley, T. J. Stubbs, M. I. Zimmerman, and T. L. Jackson. Solar-Storm/Lunar At-mosphere Model (SSLAM): An overview of the e↵ort and description of the driving storm environment.Journal of Geophysical Research (Planets), 117:E00K04, October 2012.

[55] A. R. Poppe, R. Samad, J. S. Halekas, M. Sarantos, G. T. Delory, W. M. Farrell, V. Angelopoulos,and J. P. McFadden. ARTEMIS observations of lunar pick-up ions in the terrestrial magnetotail lobes.Geophysical Research Letters, 39:L17104, September 2012.

[56] A. R. Poppe, J. S. Halekas, G. T. Delory, and W. M. Farrell. Particle-in-cell simulations of the solarwind interaction with lunar crustal magnetic anomalies: Magnetic cusp regions. Journal of Geophysical

Research (Space Physics), 117:A09105, September 2012.

[57] R. A. Carley, K. A. Whaler, M. E. Purucker, and J. S. Halekas. Magnetization of the lunar crust.Journal of Geophysical Research (Planets), 117:E08001, August 2012.

[58] J. S. Halekas, A. R. Poppe, G. T. Delory, M. Sarantos, W. M. Farrell, V. Angelopoulos, and J. P. Mc-Fadden. Lunar pickup ions observed by ARTEMIS: Spatial and temporal distribution and constraintson species and source locations. Journal of Geophysical Research (Planets), 117:E06006, June 2012.

[59] J. S. Halekas, A. R. Poppe, W. M. Farrell, G. T. Delory, V. Angelopoulos, J. P. McFadden, J. W.Bonnell, K. H. Glassmeier, F. Plaschke, A. Roux, and R. E. Ergun. Lunar precursor e↵ects in the solarwind and terrestrial magnetosphere. Journal of Geophysical Research (Space Physics), 117:A05101,May 2012.

[60] J. B. Tao, R. E. Ergun, D. L. Newman, J. S. Halekas, L. Andersson, V. Angelopoulos, J. W. Bonnell,J. P. McFadden, C. M. Cully, H.-U. Auster, K.-H. Glassmeier, D. E. Larson, W. Baumjohann, andM. V. Goldman. Kinetic instabilities in the lunar wake: ARTEMIS observations. Journal of Geophysical

Research (Space Physics), 117:A03106, March 2012.

[61] M. O. Fillingim, R. J. Lillis, S. L. England, L. M. Peticolas, D. A. Brain, J. S. Halekas, C. Paty,D. Lummerzheim, and S. W. Bougher. On wind-driven electrojets at magnetic cusps in the nightsideionosphere of Mars. Earth, Planets, and Space, 64:93–103, February 2012.

[62] J. P. Eastwood, J. J. H. Videira, D. A. Brain, and J. S. Halekas. A chain of magnetic flux ropes in themagnetotail of Mars. Geophysical Research Letters, 39:L03104, February 2012.

[63] J. S. Halekas, A. Poppe, G. T. Delory, W. M. Farrell, and M. Horanyi. Solar wind electron interactionwith the dayside lunar surface and crustal magnetic fields: Evidence for precursor e↵ects. Earth,

Planets, and Space, 64:73–82, February 2012.

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[64] D. Brain and J. S. Halekas. Aurora in Martian Mini Magnetospheres. Washington DC American

Geophysical Union Geophysical Monograph Series, 197, 2012.

[65] A. R. Poppe, J. S. Halekas, G. T. Delory, W. M. Farrell, V. Angelopoulos, J. P. McFadden, J. W.Bonnell, and R. E. Ergun. A comparison of ARTEMIS observations and particle-in-cell modeling ofthe lunar photoelectron sheath in the terrestrial magnetotail. Geophysical Research Letters, 39:L01102,January 2012.

[66] D. G. Sibeck, V. Angelopoulos, D. A. Brain, G. T. Delory, J. P. Eastwood, W. M. Farrell, R. E.Grimm, J. S. Halekas, H. Hasegawa, P. Hellinger, K. K. Khurana, R. J. Lillis, M. Øieroset, T.-D. Phan,J. Raeder, C. T. Russell, D. Schriver, J. A. Slavin, P. M. Travnicek, and J. M. Weygand. ARTEMISScience Objectives. Space Sciences Reviews, 165:59–91, December 2011.

[67] J. S. Halekas, V. Angelopoulos, D. G. Sibeck, K. K. Khurana, C. T. Russell, G. T. Delory, W. M. Farrell,J. P. McFadden, J. W. Bonnell, D. Larson, R. E. Ergun, F. Plaschke, and K. H. Glassmeier. First Resultsfrom ARTEMIS, a New Two-Spacecraft Lunar Mission: Counter-Streaming Plasma Populations in theLunar Wake. Space Sciences Reviews, 165:93–107, December 2011.

[68] M. R. Collier, H. Kent Hills, T. J. Stubbs, J. S. Halekas, G. T. Delory, J. Espley, W. M. Farrell, J. W.Freeman, and R. Vondrak. Lunar surface electric potential changes associated with traversals throughthe Earth’s foreshock. Planetary and Space Sciences, 59:1727–1743, November 2011.

[69] W. M. Farrell, J. S. Halekas, T. J. Stubbs, G. T. Delory, R. M. Killen, R. E. Hartle, and M. R. Collier.Regarding the possible generation of a lunar nightside exo-ionosphere. Icarus, 216:169–172, November2011.

[70] J. S. Halekas, Y. Saito, G. T. Delory, and W. M. Farrell. New views of the lunar plasma environment.Planetary and Space Sciences, 59:1681–1694, November 2011.

[71] J. A. Briggs, D. A. Brain, M. L. Cartwright, J. P. Eastwood, and J. S. Halekas. A statistical study offlux ropes in the Martian magnetosphere. Planetary and Space Sciences, 59:1498–1505, October 2011.

[72] M. I. Zimmerman, W. M. Farrell, T. J. Stubbs, J. S. Halekas, and T. L. Jackson. Solar wind access tolunar polar craters: Feedback between surface charging and plasma expansion. Geophysical Research

Letters, 38:L19202, October 2011.

[73] T. J. Stubbs, D. A. Glenar, W. M. Farrell, R. R. Vondrak, M. R. Collier, J. S. Halekas, and G. T.Delory. On the role of dust in the lunar ionosphere. Planetary and Space Sciences, 59:1659–1664,October 2011.

[74] J. S. Halekas, S. D. Bale, D. L. Mitchell, and R. P. Lin. Correction to ”Electrons and magnetic fieldsin the lunar plasma wake”. Journal of Geophysical Research (Space Physics), 116:A07228, July 2011.

[75] T. L. Jackson, W. M. Farrell, R. M. Killen, G. T. Delory, J. S. Halekas, and T. J. Stubbs. Dischargingof Roving Objects in the Lunar Polar Regions. Journal of Spacecraft and Rockets, 48:700–704, July2011.

[76] J. S. Halekas, G. T. Delory, W. M. Farrell, V. Angelopoulos, J. P. McFadden, J. W. Bonnell, M. O.Fillingim, and F. Plaschke. First remote measurements of lunar surface charging from ARTEMIS: Ev-idence for nonmonotonic sheath potentials above the dayside surface. Journal of Geophysical Research

(Space Physics), 116:A07103, July 2011.

[77] J. S. Halekas, D. A. Brain, and J. P. Eastwood. Large-amplitude compressive ”sawtooth” magneticfield oscillations in the Martian magnetosphere. Journal of Geophysical Research (Space Physics),116:A07222, July 2011.

[78] S. Wiehle, F. Plaschke, U. Motschmann, K.-H. Glassmeier, H. U. Auster, V. Angelopoulos, J. Mueller,H. Kriegel, E. Georgescu, J. Halekas, D. G. Sibeck, and J. P. McFadden. First lunar wake passageof ARTEMIS: Discrimination of wake e↵ects and solar wind fluctuations by 3D hybrid simulations.Planetary and Space Sciences, 59:661–671, June 2011.

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[79] K. L. Louzada, S. T. Stewart, B. P. Weiss, J. Gattacceca, R. J. Lillis, and J. S. Halekas. Impactdemagnetization of the Martian crust: Current knowledge and future directions. Earth and Planetary

Science Letters, 305:257–269, May 2011.

[80] A. Poppe, J. S. Halekas, and M. Horanyi. Negative potentials above the day-side lunar surface inthe terrestrial plasma sheet: Evidence of non-monotonic potentials. Geophysical Research Letters,38:L02103, January 2011.

[81] R. J. Lillis, M. E. Purucker, J. S. Halekas, K. L. Louzada, S. T. Stewart-Mukhopadhyay, M. Manga,and H. V. Frey. Study of impact demagnetization at Mars using Monte Carlo modeling and multiplealtitude data. Journal of Geophysical Research (Planets), 115:E07007, July 2010.

[82] D. A. Brain, A. H. Baker, J. Briggs, J. P. Eastwood, J. S. Halekas, and T.-D. Phan. Episodic detachmentof Martian crustal magnetic fields leading to bulk atmospheric plasma escape. Geophysical Research

Letters, 37:L14108, July 2010.

[83] J. S. Halekas and D. A. Brain. Global distribution, structure, and solar wind control of low altitudecurrent sheets at Mars. Icarus, 206:64–73, March 2010.

[84] M. Øieroset, D. A. Brain, E. Simpson, D. L. Mitchell, T. D. Phan, J. S. Halekas, R. P. Lin, and M. H.Acuna. Search for Phobos and Deimos gas/dust tori using in situ observations from Mars GlobalSurveyor MAG/ER. Icarus, 206:189–198, March 2010.

[85] D. Brain, S. Barabash, A. Boesswetter, S. Bougher, S. Brecht, G. Chanteur, D. Hurley, E. Dubinin,X. Fang, M. Fraenz, J. Halekas, E. Harnett, M. Holmstrom, E. Kallio, H. Lammer, S. Ledvina,M. Liemohn, K. Liu, J. Luhmann, Y. Ma, R. Modolo, A. Nagy, U. Motschmann, H. Nilsson, H. Shi-nagawa, S. Simon, and N. Terada. A comparison of global models for the solar wind interaction withMars. Icarus, 206:139–151, March 2010.

[86] M. O. Fillingim, L. M. Peticolas, R. J. Lillis, D. A. Brain, J. S. Halekas, D. Lummerzheim, and S. W.Bougher. Localized ionization patches in the nighttime ionosphere of Mars and their electrodynamicconsequences. Icarus, 206:112–119, March 2010.

[87] W. M. Farrell, T. J. Stubbs, J. S. Halekas, R. M. Killen, G. T. Delory, M. R. Collier, and R. R.Vondrak. Anticipated electrical environment within permanently shadowed lunar craters. Journal of

Geophysical Research (Planets), 115:E03004, March 2010.

[88] J. S. Halekas, R. J. Lillis, R. P. Lin, M. Manga, M. E. Purucker, and R. A. Carley. How strongare lunar crustal magnetic fields at the surface?: Considerations from a reexamination of the electronreflectometry technique. Journal of Geophysical Research (Planets), 115:E03006, March 2010.

[89] J. S. Halekas, J. P. Eastwood, D. A. Brain, T. D. Phan, M. Øieroset, and R. P. Lin. In situ observationsof reconnection Hall magnetic fields at Mars: Evidence for ion di↵usion region encounters. Journal ofGeophysical Research (Space Physics), 114:A11204, November 2009.

[90] J. S. Halekas, G. T. Delory, R. P. Lin, T. J. Stubbs, and W. M. Farrell. Lunar surface charging duringsolar energetic particle events: Measurement and prediction. Journal of Geophysical Research (Space

Physics), 114:A05110, May 2009.

[91] J. S. Halekas, G. T. Delory, R. P. Lin, T. J. Stubbs, and W. M. Farrell. Lunar Prospector measurementsof secondary electron emission from lunar regolith. Planetary and Space Sciences, 57:78–82, January2009.

[92] W. M. Farrell, T. J. Stubbs, G. T. Delory, R. R. Vondrak, M. R. Collier, J. S. Halekas, and R. P.Lin. Concerning the dissipation of electrically charged objects in the shadowed lunar polar regions.Geophysical Research Letters, 35:L19104, October 2008.

[93] J. S. Halekas, G. T. Delory, R. P. Lin, T. J. Stubbs, and W. M. Farrell. Lunar Prospector observationsof the electrostatic potential of the lunar surface and its response to incident currents. Journal of

Geophysical Research (Space Physics), 113:A09102, September 2008.

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[94] F. Leblanc, O. Witasse, J. Lilensten, R. A. Frahm, A. Safaenili, D. A. Brain, J. Mouginot, H. Nilsson,Y. Futaana, J. Halekas, M. HolmstroM, J. L. Bertaux, J. D. Winningham, W. Kofman, and R. Lundin.Observations of aurorae by SPICAM ultraviolet spectrograph on board Mars Express: SimultaneousASPERA-3 and MARSIS measurements. Journal of Geophysical Research (Space Physics), 113:A08311,August 2008.

[95] J. S. Halekas, G. T. Delory, D. A. Brain, R. P. Lin, and D. L. Mitchell. Density cavity observed overa strong lunar crustal magnetic anomaly in the solar wind: A mini-magnetosphere? Planetary and

Space Sciences, 56:941–946, May 2008.

[96] D. L. Mitchell, J. S. Halekas, R. P. Lin, S. Frey, L. L. Hood, M. H. Acuna, and A. Binder. Globalmapping of lunar crustal magnetic fields by Lunar Prospector. Icarus, 194:401–409, April 2008.

[97] W. M. Farrell, T. J. Stubbs, J. S. Halekas, G. T. Delory, M. R. Collier, R. R. Vondrak, and R. P. Lin.Loss of solar wind plasma neutrality and a↵ect on surface potentials near the lunar terminator andshadowed polar regions. Geophysical Research Letters, 35:L05105, March 2008.

[98] J. P. Eastwood, D. A. Brain, J. S. Halekas, J. F. Drake, T. D. Phan, M. Øieroset, D. L. Mitchell, R. P.Lin, and M. Acuna. Evidence for collisionless magnetic reconnection at Mars. Geophysical Research

Letters, 35:L02106, January 2008.

[99] J. S. Halekas, D. A. Brain, R. P. Lin, J. G. Luhmann, and D. L. Mitchell. Distribution and variabilityof accelerated electrons at Mars. Advances in Space Research, 41:1347–1352, 2008.

[100] J. S. Halekas, D. A. Brain, R. P. Lin, and D. L. Mitchell. Solar wind interaction with lunar crustalmagnetic anomalies. Advances in Space Research, 41:1319–1324, 2008.

[101] D. A. Brain, R. J. Lillis, D. L. Mitchell, J. S. Halekas, and R. P. Lin. Electron pitch angle distributionsas indicators of magnetic field topology near Mars. Journal of Geophysical Research (Space Physics),112:A09201, September 2007.

[102] W. M. Farrell, T. J. Stubbs, R. R. Vondrak, G. T. Delory, and J. S. Halekas. Complex electric fieldsnear the lunar terminator: The near-surface wake and accelerated dust. Geophysical Research Letters,34:L14201, July 2007.

[103] M. O. Fillingim, L. M. Peticolas, R. J. Lillis, D. A. Brain, J. S. Halekas, D. L. Mitchell, R. P. Lin,D. Lummerzheim, S. W. Bougher, and D. L. Kirchner. Model calculations of electron precipitationinduced ionization patches on the nightside of Mars. Geophysical Research Letters, 34:L12101, June2007.

[104] J. S. Halekas, G. T. Delory, D. A. Brain, R. P. Lin, M. O. Fillingim, C. O. Lee, R. A. Mewaldt, T. J.Stubbs, W. M. Farrell, and M. K. Hudson. Extreme lunar surface charging during solar energeticparticle events. Geophysical Research Letters, 34:L02111, January 2007.

[105] T. J. Stubbs, J. S. Halekas, W. M. Farrell, and R. R. Vondrak. Lunar Surface Charging: A GlobalPerspective Using Lunar Prospector Data. Dust in Planetary Systems, 643:181–184, January 2007.

[106] J. S. Halekas, D. A. Brain, D. L. Mitchell, and R. P. Lin. Whistler waves observed near lunar crustalmagnetic sources. Geophysical Research Letters, 33:L22104, November 2006.

[107] F. Leblanc, O. Witasse, J. Winningham, D. Brain, J. Lilensten, P.-L. Blelly, R. A. Frahm, J. S.Halekas, and J. L. Bertaux. Origins of the Martian aurora observed by Spectroscopy for Investigationof Characteristics of the Atmosphere of Mars (SPICAM) on board Mars Express. Journal of Geophysical

Research (Space Physics), 111:A09313, September 2006.

[108] J. S. Halekas, D. A. Brain, R. J. Lillis, M. O. Fillingim, D. L. Mitchell, and R. P. Lin. Current sheetsat low altitudes in the Martian magnetotail. Geophysical Research Letters, 33:L13101, July 2006.

[109] D. A. Brain, D. L. Mitchell, and J. S. Halekas. The magnetic field draping direction at Mars from April1999 through August 2004. Icarus, 182:464–473, June 2006.

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[110] J. S. Halekas, D. A. Brain, D. L. Mitchell, R. P. Lin, and L. Harrison. On the occurrence of magneticenhancements caused by solar wind interaction with lunar crustal fields. Geophysical Research Letters,33:L08106, April 2006.

[111] D. A. Brain, J. S. Halekas, L. M. Peticolas, R. P. Lin, J. G. Luhmann, D. L. Mitchell, G. T. Delory,S. W. Bougher, M. H. Acuna, and H. Reme. On the origin of aurorae on Mars. Geophysical Research

Letters, 33:L01201, January 2006.

[112] D. A. Brain, J. S. Halekas, R. Lillis, D. L. Mitchell, R. P. Lin, and D. H. Crider. Variability of thealtitude of the Martian sheath. Geophysical Research Letters, 32:L18203, September 2005.

[113] J. S. Halekas, S. D. Bale, D. L. Mitchell, and R. P. Lin. Electrons and magnetic fields in the lunarplasma wake. Journal of Geophysical Research (Space Physics), 110:A07222, July 2005.

[114] J. S. Halekas, R. P. Lin, and D. L. Mitchell. Large negative lunar surface potentials in sunlight andshadow. Geophysical Research Letters, 32:L09102, May 2005.

[115] J. S. Halekas, R. P. Lin, and D. L. Mitchell. Inferring the scale height of the lunar nightside doublelayer. Geophysical Research Letters, 30:2117, November 2003.

[116] J. S. Halekas, R. P. Lin, and D. L. Mitchell. Magnetic fields of lunar multi-ring impact basins. Mete-

oritics and Planetary Science, 38:565–578, April 2003.

[117] N. C. Richmond, L. L. Hood, J. S. Halekas, D. L. Mitchell, R. P. Lin, M. Acuna, and A. B. Binder.Correlation of a strong lunar magnetic anomaly with a high-albedo region of the Descartes mountains.Geophysical Research Letters, 30:48–1, April 2003.

[118] J. S. Halekas. The origins of lunar crustal magnetic fields. PhD thesis, University of California,Berkeley, 2003.

[119] J. S. Halekas, D. L. Mitchell, R. P. Lin, L. L. Hood, M. H. Acuna, and A. B. Binder. Demagnetizationsignatures of lunar impact craters. Geophysical Research Letters, 29:23–1, July 2002.

[120] J. S. Halekas, D. L. Mitchell, R. P. Lin, L. L. Hood, M. H. Acuna, and A. B. Binder. Evidence fornegative charging of the lunar surface in shadow. Geophysical Research Letters, 29:77–1, May 2002.

[121] J. S. Halekas, D. L. Mitchell, R. P. Lin, S. Frey, L. L. Hood, M. H. Acuna, and A. B. Binder. Mappingof crustal magnetic anomalies on the lunar near side by the Lunar Prospector electron reflectometer.Journal of Geophysical Research, 106:27841–27852, November 2001.

[122] L. L. Hood, A. Zakharian, J. Halekas, D. L. Mitchell, R. P. Lin, M. H. Acuna, and A. B. Binder. Initialmapping and interpretation of lunar crustal magnetic anomalies using Lunar Prospector magnetometerdata. Journal of Geophysical Research, 106:27825–27840, November 2001.

[123] E. C. Whipple, D. L. Starr, J. S. Halekas, J. D. Scudder, R. D. Holdaway, J. B. Faden, P. Puhl-Quinn,N. C. Maynard, and C. T. Russell. Magnetospheric electric fields from ion data. Geophysical Research

Letters, 26:1561–1564, 1999.

[124] E. C. Whipple, J. S. Halekas, J. D. Scudder, W. R. Paterson, L. A. Frank, R. B. Sheldon, N. C.Maynard, D. R. Weimer, C. T. Russell, K. Tsuruda, H. Hayakawa, and T. Yamamoto. Identification ofmagnetospheric particles that travel between spacecraft and their use to help obtain magnetosphericpotential distributions. Journal of Geophysical Research, 103:93–102, January 1998.

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Presentations

[1] C. Grava, K. D. Retherford, D. M. Hurley, P. D. Feldman, G. R. Gladstone, T. K. Greathouse, J. C.Cook, S. A. Stern, K. E. Mandt, D. E. Kaufmann, W. R. Pryor, and J. S. Halekas. LRO-LAMPObservations of the Lunar Exospheric Helium Coordinated with LADEE and ARTEMIS: Analysis ofO↵-Nadir Pitches. In Lunar and Planetary Science Conference, volume 47 of Lunar and PlanetaryScience Conference, page 2472, March 2016.

[2] P. J. Chi, H. Y. Wei, W. M. Farrell, and J. S. Halekas. Excitation of Selenogenic Ion Cyclotron Waves:Implications from ARTEMIS Observations and Dispersion Analysis. In Lunar and Planetary ScienceConference, volume 47 of Lunar and Planetary Science Conference, page 2564, March 2016.

[3] S. Curry, J. G. Luhmann, C. D. Dong, D. Brain, F. Leblanc, R. Modolo, J. Halekas, J. McFadden,J. Connerney, J. Espley, D. Mitchell, D. Larson, T. Hara, and B. Jakosky. MAVEN data-modelcomparison of the response of heavy pick-up ions during extreme conditions at Mars. In AAS/Divisionfor Planetary Sciences Meeting Abstracts, volume 47 of AAS/Division for Planetary Sciences MeetingAbstracts, page 505.06, November 2015.

[4] C. Dong, S. W. Bougher, Y. Ma, G. Toth, S. M. Curry, A. F. Nagy, J. S. Halekas, J. G. Luhmann,P. Maha↵y, M. Benna, J. E. P. Connerney, J. Espley, D. L. Mitchell, D. A. Brain, and B. M. Jakosky.Solar wind Mars interaction during the MAVEN Deep Dip campaigns: multi-fluid MHD simulationsbased upon the SWIA, NGIMS and MAG measurements. In AAS/Division for Planetary SciencesMeeting Abstracts, volume 47 of AAS/Division for Planetary Sciences Meeting Abstracts, page 419.13,November 2015.

[5] M. W. Morooka, L. Andersson, B. Ergun, C. Fowler, A. Woodson, T. Weber, G. Delory, D. Andrews,N. Edberg, A. Eriksson, D. Michell, J. Connerney, J. Gruesbeck, and J. Halekas. Boundary locationof Mars nightside ionospheric plasma in term of the electron density. In AAS/Division for PlanetarySciences Meeting Abstracts, volume 47 of AAS/Division for Planetary Sciences Meeting Abstracts, page419.22, November 2015.

[6] J. R. Espley, G. A. DiBraccio, J. Connerney, D. Brain, J. Gruesbeck, Y. Soobiah, J. Halekas, M. Combi,J. Luhmann, Y. Ma, Y. Jia, and B. Jakosky. A Comet Engulfs Mars: MAVEN observations of CometSiding Spring”s E↵ects on the Martian Magnetosphere. In AAS/Division for Planetary Sciences Meet-ing Abstracts, volume 47 of AAS/Division for Planetary Sciences Meeting Abstracts, page 505.04,November 2015.

[7] C. Grava, K. D. Retherford, D. M. Hurley, P. D. Feldman, R. Gladstone, T. K. Greathouse, J. C.Cook, A. Stern, W. R. Pryor, J. S. Halekas, and D. E. Kaufmann. LRO-LAMP Observations ofLunar Exospheric Helium. In AAS/Division for Planetary Sciences Meeting Abstracts, volume 47 ofAAS/Division for Planetary Sciences Meeting Abstracts, page 107.12, November 2015.

[8] A. Woodson, T. Weber, L. Andersson, R. Ergun, D. Andrews, T. Chamandy, J. Connerny, G. Delory,A. Eriksson, C. Fowler, J. Halekas, P. Maha↵y, D. Mitchell, and M. Morooka. Response of the Martianinduced magnetosphere to variations in solar forcing. In AAS/Division for Planetary Sciences MeetingAbstracts, volume 47 of AAS/Division for Planetary Sciences Meeting Abstracts, page 419.26, November2015.

[9] A. R. Poppe, J. S. Halekas, S. Fatemi, and G. T. Delory. ARTEMIS’ Perspective on a Dynamic Moon.In Annual Meeting of the Lunar Exploration Analysis Group, volume 1863 of LPI Contributions, page2032, October 2015.

[10] P. J. Chi, H. Y. Wei, W. M. Farrell, and J. S. Halekas. Selenogenic Ion Cyclotron Waves: ARTEMISObservations and Implications for the Lunar Exosphere. In Annual Meeting of the Lunar ExplorationAnalysis Group, volume 1863 of LPI Contributions, page 2047, October 2015.

[11] M. Collier, M. L. Adams, S. Barabash, P. C. Calhoun, P. E. Clark, W. M. Farrell, D. C.Folta, J. Halekas, S. E. Haque, D. M. Hurley, M. Keidar, J. W. Keller, R. M. Killen, C. Klet-zing, R. J. MacDowall, B. K. Malphrus, R. R. McNeil, R. R. Vondrak, and M. Wieser.

1

Quantifying the Lunar Hydrogen Cycle: A Fast, E↵ective, and Economical CubeSat Ap-proach. European Planetary Science Congress 2015, held 27 September - 2 October, 2015 inNantes, France, Online at ¡A href=”http://meetingorganizer.copernicus.org/EPSC2015/EPSC2015”¿http://meetingorganizer.copernicus.org/EPSC2015¡/A¿, id.EPSC2015-829, 10:EPSC2015–829, Octo-ber 2015.

[12] J. G. Luhmann, C. Dong, Y.-J. Ma, S. M. Curry, K. Alvarez, T. Hara, J. Halekas,D. A. Brain, S. Bougher, and J. Espley. Mars’ ”Magnetospheric” Response to Inter-planetary Field Orientation: Inferences from Models for MAVEN Investigation. Euro-pean Planetary Science Congress 2015, held 27 September - 2 October, 2015 in Nantes,France, Online at ¡A href=”http://meetingorganizer.copernicus.org/EPSC2015/EPSC2015”¿http://meetingorganizer.copernicus.org/EPSC2015¡/A¿, id.EPSC2015-146, 10:EPSC2015–146,October 2015.

[13] Y. Ma, C. Russell, A. F. Nagy, G. Toth, J. S. Halekas, J. E. P. Connerney, J. R. Espley,P. R. Maha↵y, M. Benna, and J. McFadden. MHD Model Results of Solar Wind Plasma In-teraction with Mars and Comparison with MAVEN Observations during Quiet Solar Wind Con-ditions. European Planetary Science Congress 2015, held 27 September - 2 October, 2015 inNantes, France, Online at ¡A href=”http://meetingorganizer.copernicus.org/EPSC2015/EPSC2015”¿http://meetingorganizer.copernicus.org/EPSC2015¡/A¿, id.EPSC2015-316, 10:EPSC2015–316, Octo-ber 2015.

[14] S. M. Curry, J. G. Luhmann, C. F. Dong, T. Hara, Y. Harada, F. Leblanc, R. Mod-olo, Y. Ma., D. Brain, R. Lillis, R. Livi, J. McFadden, J. Halekas, J. Espley, D. Mitchell,J. Connerney, and B. M. Jakosky. Data-Model Comparisons of Planetary Ions atMars. European Planetary Science Congress 2015, held 27 September - 2 October, 2015 inNantes, France, Online at ¡A href=”http://meetingorganizer.copernicus.org/EPSC2015/EPSC2015”¿http://meetingorganizer.copernicus.org/EPSC2015¡/A¿, id.EPSC2015-892, 10:EPSC2015–892, Octo-ber 2015.

[15] R. C. Elphic, M. Horanyi, A. Colaprete, M. Benna, P. R. Maha↵y, G. T. Delory, S. K. Noble, J. S.Halekas, D. M. Hurley, T. J. Stubbs, M. Sarantos, S. Kempf, A. Poppe, J. Szalay, Z. Sternovsky, A. M.Cooke, D. H. Wooden, and D. Glenar. LADEE Results: Implications for Exploration and Sciences.In Annual Meeting of the Lunar Exploration Analysis Group, volume 1863 of LPI Contributions, page2083, October 2015.

[16] J. G. Luhmann, R. Lillis, C. Lee, T. hara, J. Halekas, D. Morgan, D. Gurnett, D. Brain, T. McEnulty,X. Fang, B. Jakosky, P. Maha↵y, F. Eparvier, Y. Futaana, M. Holmstrom, N. Edberg, H. Opgenoorth,F. Leblanc, A. Opitz, J. Espley, Y. Ma, C. T. Russell, T. Zhang, P. Withers, and D. Odstrcil. ”GroundTruth” Insights on Space Weather E↵ects at Habitable Zone Terrestrial Planets. IAU General Assembly,22:2250172, August 2015.

[17] R. A. Bamford, E. P. Alves, F. Cruz, B. J. Kellett, R. A. Fonseca, L. O Silva, R. M. G. M. Trines, J. S.Halekas, G. Kramer, E. Harnett, R. A. Cairns, and R. Bingham. Formation of Lunar Swirls. ArXive-prints, May 2015.

[18] S. Ruhunusiri, J. Halekas, J. Connerney, J. Espley, D. Larson, and D. L. Mitchell. Characterizing lowfrequency plasma waves at Mars with MAVEN. In AAS/AGU Triennial Earth-Sun Summit, volume 1of AAS/AGU Triennial Earth-Sun Summit, page 313.01, April 2015.

[19] G. A. DiBraccio, J. R. Espley, J. E. P. Connerney, D. A. Brain, J. S. Halekas, D. L. Mitchell, Y. Harada,and T. Hara. MAVEN Observations of Magnetic Reconnection on the Dayside Martian Magnetosphere.In EGU General Assembly Conference Abstracts, volume 17 of EGU General Assembly ConferenceAbstracts, page 8082, April 2015.

[20] R. Livi, J. P. McFadden, J. Luhmann, D. L. Mitchell, B. Jakosky, J. Halekas, and J. Connerney.Observation of ICME Interaction with the Martian Ionosphere. In AAS/AGU Triennial Earth-SunSummit, volume 1 of AAS/AGU Triennial Earth-Sun Summit, page 313.02, April 2015.

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[21] I. Garrick-Bethell, C. Russell, C. Pieters, B. Weiss, J. Halekas, A. Poppe, D. Larson, D. Lawrence,R. Elphic, P. Hayne, R. Blakely, K.-H. Kim, Y.-J. Choi, H. Jin, D. Hemingway, M. Nayak, J. Puig-Suari, B. Jaroux, and S. Warwick. NanoSWARM - A nano-satellite mission to measure particles andfields around the Moon. In EGU General Assembly Conference Abstracts, volume 17 of EGU GeneralAssembly Conference Abstracts, page 8129, April 2015.

[22] L. Andersson, D. Andrews, B. Ergun, G. Delory, M. Morooka, C. Fowler, T. McEnulty, T. Weber,A. Eriksson, D. Malaspina, F. Crary, D. Mitchell, J. McFadden, J. Halekas, D. Larson, J. Connerney,J. Espley, and F. Eparvies. Long Awaited Fundamental Measurement of the Martian Upper Atmospherefrom the Langmuir Probe and Waves Instrument on the MAVEN Mission. In EGU General AssemblyConference Abstracts, volume 17 of EGU General Assembly Conference Abstracts, page 7330, April2015.

[23] T. McEnulty, D. Andrews, L. Andersson, R. E. Ergun, G. T. Delory, C. M. Fowler, M. W. Morooka,T. Weber, A. I. Eriksson, D. L. Mitchell, J. P. McFadden, J. Halekas, D. Larson, J. Connerney,J. Espley, and F. G. Eparvier. Density Structures Within the Martian Ionosphere from the LangmuirProbe and Waves Instrument on the MAVEN Mission. In AAS/AGU Triennial Earth-Sun Summit,volume 1 of AAS/AGU Triennial Earth-Sun Summit, page 209.06, April 2015.

[24] D. Brain, Y. Dong, K. Fortier, X. Fang, J. McFadden, J. Halekas, J. Connerney, F. Eparvier, C. Dong,S. Bougher, Y. Ma, R. Modolo, R. Lillis, J. Luhmann, S. Curry, K. Seki, and B. Jakosky. MAVENMeasurements of the Ion Escape Rate from Mars. In EGU General Assembly Conference Abstracts,volume 17 of EGU General Assembly Conference Abstracts, page 8379, April 2015.

[25] P. M. Travnicek, O. Sebek, S. D. Bale, P. Hellinger, and J. Halekas. Interaction of Europa with JovianPlasma Torus. In EGU General Assembly Conference Abstracts, volume 17 of EGU General AssemblyConference Abstracts, page 8449, April 2015.

[26] D. Larsen, R. J. Lillis, A. Rahmati, P. Dunn, T. Cravens, D. Curtis, K. Hatch, M. Robinson, D. Glaser,J. Halekas, B. Jakosky, J. Luhmann, J. P. McFadden, and J. Connerney. The Solar Energetic Parti-cle experiment on MAVEN: First Results. In AAS/AGU Triennial Earth-Sun Summit, volume 1 ofAAS/AGU Triennial Earth-Sun Summit, page 305.06, April 2015.

[27] T. Cravens, A. Rahmati, D. Larsen, R. Lillis, J. Connerney, J. Halekas, and S. W. Bougher. OxygenPickup Ions at Mars: Model Comparisons with MAVEN Data and Implications for Oxygen Escape. InAAS/AGU Triennial Earth-Sun Summit, volume 1 of AAS/AGU Triennial Earth-Sun Summit, page313.04, April 2015.

[28] D. N. Baker, R. M. Dewey, D. A. Brain, B. Jakosky, J. Halekas, J. Connerney, D. Odstrcil, M. L. Mays,and J. Luhmann. Using Space Weather Forecast Tools for Understanding Planetary Magnetospheres:MESSENGER Experience Applied to MAVEN Studies. In AAS/AGU Triennial Earth-Sun Summit,volume 1 of AAS/AGU Triennial Earth-Sun Summit, page 305.03, April 2015.

[29] G. A. DiBraccio, J. Espley, D. A. Brain, J. Connerney, J. Halekas, D. L. Mitchell, J. P. McFadden,Y. Harada, and T. Hara. MAVEN Observations of Flux Transport on the Dayside Martian Magne-tosphere. In AAS/AGU Triennial Earth-Sun Summit, volume 1 of AAS/AGU Triennial Earth-SunSummit, page 305.04, April 2015.

[30] Y. Dong, X. Fang, D. A. Brain, J. P. McFadden, J. Halekas, and J. Connerney. MAVEN Observationsof Escaping Planetary Ions from the Martian Atmosphere: Mass, Velocity, and Spatial Distributions.In AAS/AGU Triennial Earth-Sun Summit, volume 1 of AAS/AGU Triennial Earth-Sun Summit, page305.05, April 2015.

[31] L. Andersson, R. E. Ergun, G. T. Delory, M. W. Morooka, C. M. Fowler, T. McEnulty, T. Weber,A. I. Eriksson, D. Andrews, D. Malaspina, F. Crary, D. L. Mitchell, J. P. McFadden, J. S. Halekas,D. Larson, J. E. P. Connerney, J. Espley, and F. Eparvier. Long Awaited Fundamental Measurementof the Martian Upper Atmosphere from the Langmuir Probe and Waves Instrument on the MAVENMission. In Lunar and Planetary Science Conference, volume 46 of Lunar and Planetary ScienceConference, page 2337, March 2015.

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[32] M. W. Morooka, L. Andersson, B. Ergun, C. Fowler, T. McEnulty, G. Delory, A. Eriksson, D. Andrews,D. L. Mitchel, J. P. McFadden, J. S. Halekas, D. Larson, J. E. P. Connerney, J. Espley, and F. Eparvier.Langmuir Probe Observation of Mars Ionosphere by MAVEN/LPW. In Lunar and Planetary ScienceConference, volume 46 of Lunar and Planetary Science Conference, page 2508, March 2015.

[33] Y. Harada, J. S. Halekas, D. L. Mitchell, J. P. McFadden, J. E. P. Connerney, J. Espley, G. A.DiBraccio, R. E. Ergun, L. Andersson, T. Hara, and S. M. Curry. MAVEN Observations of MarswardIon Flux in the Near Mars Magnetotail. In Lunar and Planetary Science Conference, volume 46 ofLunar and Planetary Science Conference, page 1586, March 2015.

[34] G. A. DiBraccio, J. R. Espley, J. E. P. Connerney, D. A. Brain, J. S. Halekas, D. L. Mitchell, Y. Harada,and T. Hara. MAVEN Observations of Magnetic Reconnection on the Dayside Martian Magnetosphere.In Lunar and Planetary Science Conference, volume 46 of Lunar and Planetary Science Conference,page 2125, March 2015.

[35] S. M. Curry, J. G. Luhmann, C. F. Dong, F. Leblanc, R. Modolo, Y. Ma, J. Halekas, J. McFadden,D. Mitchell, D. Larson, J. Connerney, J. Espley, R. Lillis, D. Brain, X. Fang, R. Livi, T. Hara,Y. Harada, and B. M. Jakosky. MAVEN Data-Model Comparisons of Planetary Ions. In Lunar andPlanetary Science Conference, volume 46 of Lunar and Planetary Science Conference, page 2389, March2015.

[36] Y. J. Ma, C. T. Russell, A. F. Nagy, G. Toth, J. S. Halekas, J. E. P. Connerney, J. R. Espley, andP. R. Maha↵y. MHD Model Results of Solar Wind Plasma Interaction with Mars and Comparison withMAVEN Observations. In Lunar and Planetary Science Conference, volume 46 of Lunar and PlanetaryScience Conference, page 1202, March 2015.

[37] R. M. Winslow, A. P. Jordan, J. S. Halekas, T. J. Stubbs, N. A. Schwadron, J. K. Wilson, and H. E.Spence. Lunar Surface Charging and Possible Dielectric Breakdown in the Regolith During Two StrongSEP Events. In Lunar and Planetary Science Conference, volume 46 of Lunar and Planetary ScienceConference, page 1261, March 2015.

[38] T. McEnulty, D. Andrews, L. Andersson, R. E. Ergun, G. T. Delory, C. M. Fowler, M. W. Mooroka,T. Weber, A. I. Eriksson, D. L. Mitchell, J. P. McFadden, J. S. Halekas, D. Larson, J. E. P. Connerney,J. Espley, and F. Eparvier. Density Structures Within the Martian Ionosphere from the LangmuirProbe and Waves Instrument on the MAVEN Mission. In Lunar and Planetary Science Conference,volume 46 of Lunar and Planetary Science Conference, page 1578, March 2015.

[39] T. Hara, D. L. Mitchell, J. P. McFadden, J. S. Halekas, J. R. Espley, J. E. P. Connerney, G. A.DiBraccio, L. Andersson, D. A. Brain, and K. Seki. Estimation of Ionospheric Plasma Content InsideMartian Magnetic Flux Ropes Based on MAVEN Observations. In Lunar and Planetary ScienceConference, volume 46 of Lunar and Planetary Science Conference, page 1773, March 2015.

[40] S. Ruhunusiri, J. S. Halekas, J. E. P. Connerney, J. Espley, D. Larson, D. L. Mitchell, and D. A. Brain.MAVEN Observations of Magnetosonic Like Waves Upstream of Mars. In Lunar and Planetary ScienceConference, volume 46 of Lunar and Planetary Science Conference, page 2594, March 2015.

[41] G. T. Delory, L. Andersson, R. E. Ergun, M. W. Mooroka, C. Fowler, T. McEnulty, T. Weber, A. Eriks-son, D. Andrews, D. L. Mitchell, J. P. McFadden, J. S. Halekas, D. Larson, J. E. P. Connerney, andF. Eparvier. Design and Performance of the Langmuir Probe on the MAVEN Mission. In Lunarand Planetary Science Conference, volume 46 of Lunar and Planetary Science Conference, page 2662,March 2015.

[42] T. E. Cravens, D. Mitchell, S. Sakai, A. Rahmati, S. W. Bougher, J. Halekas, and C. Mazelle. AugerElectrons in the Martian Ionosphere: Model Comparisons with MAVEN Data. In Lunar and PlanetaryScience Conference, volume 46 of Lunar and Planetary Science Conference, page 2581, March 2015.

[43] J. S. Halekas, J. P. McFadden, J. G. Luhmann, and R. J. Lillis. Solar Wind or Houdini? PenetratingProtons Observed at Low Altitude by the MAVEN Solar Wind Ion Analyzer. In Lunar and PlanetaryScience Conference, volume 46 of Lunar and Planetary Science Conference, page 1381, March 2015.

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[44] C. M. Fowler, R. E. Ergun, L. Andersson, M. W. Mooroka, G. T. Delory, T. McEnulty, T. Weber, A. I.Eriksson, D. Andrews, D. L. Mitchell, J. P. McFadden, J. S. Halekas, D. Larson, J. E. P. Connerney,J. Espley, and F. Eparvier. First Results of the Martian Plasma Environment Below 500 km fromthe Langmuir Probe and Waves Instrument on the MAVEN Mission. In Lunar and Planetary ScienceConference, volume 46 of Lunar and Planetary Science Conference, page 2115, March 2015.

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[125] S. R. Fischer, D. Ulusen, D. A. Brain, J. S. Halekas, and D. M. Hurley. Detection of Field-AlignedCurrent Signatures in Martian Auroral Regions. AGU Fall Meeting Abstracts, December 2010.

[126] T. J. Stubbs, W. M. Farrell, M. R. Collier, D. A. Glenar, D. T. Richard, T. L. Jackson, R. M. Killen,M. Sarantos, G. T. Delory, J. S. Halekas, and R. R. Vondrak. Acquiring ”Ground Truth” About theDynamic Lunar Environment: Implications for Science and Exploration. In Annual Meeting of theLunar Exploration Analysis Group, volume 1595 of LPI Contributions, page 68, September 2010.

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[127] W. M. Farrell, T. L. Jackson, J. S. Halekas, T. J. Stubbs, G. T. Delory, R. M. Killen, M. R. Collier,R. R. Vondrak, and L. S. I. Dream Team. Are There Electrical Hazards Associated with Operations inthe Lunar Polar Region? In Annual Meeting of the Lunar Exploration Analysis Group, volume 1595of LPI Contributions, page 23, September 2010.

[128] T. L. Jackson, W. M. Farrell, G. T. Delory, T. J. Stubbs, M. R. Collier, J. S. Halekas, and R. R.Vondrak. Astronaut and Object Charging on the Lunar Surface. In Lunar and Planetary ScienceConference, volume 41 of Lunar and Planetary Science Conference, page 2368, March 2010.

[129] R. J. Lillis, J. S. Halekas, S. T. Stewart, K. L. Louzada, M. E. Purucker, and M. Manga. LunarImpact Demagnetization: New Constraints fromMonte Carlo Modeling and Multiple Altitude MagneticField Data. In Lunar and Planetary Science Conference, volume 41 of Lunar and Planetary ScienceConference, page 1511, March 2010.

[130] R. J. Lillis, J. S. Halekas, S. T. Stewart, K. L. Louzada, M. E. Purucker, and M. Manga. Impact De-magnetization at Mars: New Constraints from Monte Carlo Modeling and Multiple Altitude MagneticField Data. In Lunar and Planetary Science Conference, volume 41 of Lunar and Planetary ScienceConference, page 1514, March 2010.

[131] V. Angelopoulos, R. Lillis, D. G. Sibeck, J. Halekas, G. T. Delory, K. K. Khurana, C. T. Russell,J. P. McFadden, J. Bonnell, and D. Larson. ARTEMIS, A Two Spacecraft, Planetary and HeliosphericLunar Mission. In Lunar and Planetary Science Conference, volume 41 of Lunar and Planetary ScienceConference, page 1425, March 2010.

[132] T. J. Stubbs, Y. Wang, W. M. Farrell, J. S. Halekas, R. R. Vondrak, E. Mazarico, G. A. Neumann,D. E. Smith, M. T. Zuber, and M. H. Torrence. Characterizing the Plasma Shadowing and SurfaceCharging at the Moon Using LOLA Topographic Data: Predictions for the LCROSS Impact. In Lunarand Planetary Science Conference, volume 41 of Lunar and Planetary Science Conference, page 2658,March 2010.

[133] L. L. Hood and J. S. Halekas. Lunar Surface Magnetometer Measurements for Crustal Paleomagnetismand Deep Electromagnetic Sounding Applications. In Ground-Based Geophysics on the Moon, volume1530 of LPI Contributions, page 3021, January 2010.

[134] D. T. Blewett, G. C. Ho, H. Korth, L. L. Hood, and J. Halekas. A Landed Experiment Package forInvestigation of Lunar Magnetic and Albedo Anomalies. In Ground-Based Geophysics on the Moon,volume 1530 of LPI Contributions, page 3009, January 2010.

[135] R. E. Hartle, M. Sarantos, R. M. Killen, E. C. Sittler, J. S. Halekas, S. Yokota, Y. Saito, and W. Farrell.Lunar Neutral Exosphere Properties from Pickup Ion Analysis. AGU Fall Meeting Abstracts, December2009.

[136] J. A. Briggs, D. A. Brain, J. P. Eastwood, and J. S. Halekas. Statistical Study of Flux Ropes in theMartian Upper Atmosphere. AGU Fall Meeting Abstracts, December 2009.

[137] J. S. Halekas, R. J. Lillis, R. P. Lin, M. Manga, M. E. Purucker, and R. Carley. How strong arelunar crustal magnetic fields at the surface? Considerations from a reexamination of the electronreflectometry technique. AGU Fall Meeting Abstracts, December 2009.

[138] D. Lee, J. Seon, H. Jin, K. Kim, J. Lee, M. Jang, S. Pak, K. Kim, R. P. Lin, G. K. Parks, J. S.Halekas, D. E. Larson, J. P. Eastwood, E. C. Roelof, and T. S. Horbury. TRIO (Triplet IonosphericObservatory) Mission. AGU Fall Meeting Abstracts, December 2009.

[139] T. J. Stubbs, D. A. Glenar, M. R. Collier, W. M. Farrell, J. S. Halekas, G. T. Delory, and R. R.Vondrak. On the Role of Dust in the Lunar Exo-Ionosphere. AGU Fall Meeting Abstracts, December2009.

[140] R. P. Lin, G. K. Parks, J. S. Halekas, D. E. Larson, J. P. Eastwood, L. Wang, J. G. Sample, T. S.Horbury, E. C. Roelof, D. Lee, J. Seon, J. Hines, H. Vo, C. Tindall, J. Ho, J. Lee, and K. Kim. CINEMA(Cubesat for Ion, Neutral, Electron, MAgnetic fields). AGU Fall Meeting Abstracts, December 2009.

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[141] J. S. Halekas, R. J. Lillis, M. Manga, R. P. Lin, and M. E. Purucker. Lunar Crustal Magnetism: Whatcan we Learn From the Highs and Lows? AGU Spring Meeting Abstracts, May 2009.

[142] J. S. Halekas, R. J. Lillis, M. Manga, R. P. Lin, and M. E. Purucker. Using Lunar Prospector Mag-netometer/Electron Reflectometer Data to Investigate Lunar Impact Demagnetization. AGU SpringMeeting Abstracts, May 2009.

[143] J. S. Halekas, J. P. Eastwood, D. A. Brain, and T. D. Phan. Fundamental Plasma Physics in theMartian Magnetotail and Boundary Layer. AGU Spring Meeting Abstracts, May 2009.

[144] J. S. Halekas, R. J. Lillis, M. E. Purucker, K. L. Louzada, S. T. Stewart, and M. Manga. InterpretingLunar Impact Demagnetization Signatures Using Lunar Prospector Magnetometer/Electron Reflec-tometer Data. In Lunar and Planetary Science Conference, volume 40 of Lunar and Planetary ScienceConference, page 1354, March 2009.

[145] J. S. Halekas, G. T. Delory, T. J. Stubbs, W. M. Farrell, and R. P. Lin. Developing a PredictiveCapability for Lunar Surface Charging During Solar Energetic Particle Events. In Lunar and PlanetaryScience Conference, volume 40 of Lunar and Planetary Science Conference, page 1357, March 2009.

[146] R. J. Lillis, J. S. Halekas, K. L. Louzada, S. T. Stewart, and M. Manga. Impact Demagnetization atMars: Using Multiple Altitude Magnetic Field Data to Constrain Properties of Crustal Magnetization.In Lunar and Planetary Science Conference, volume 40 of Lunar and Planetary Science Conference,page 1444, March 2009.

[147] G. T. Delory, J. S. Halekas, W. M. Farrell, and T. Stubbs. The Electrical Environment of the Moon.AGU Fall Meeting Abstracts, December 2008.

[148] R. J. Lillis, M. O. Fillingim, L. M. Peticolas, D. Kirchner, A. Safaeinili, D. A. Brain, and J. S. Halekas.Modeling variability in the night side ionosphere of Mars. AGU Fall Meeting Abstracts, December 2008.

[149] D. A. Brain, J. S. Halekas, and J. P. Eastwood. Observation of Large Plasmoids Removing AtmosphereFrom Mars. AGU Fall Meeting Abstracts, December 2008.

[150] T. J. Stubbs, W. M. Farrell, J. S. Halekas, G. T. Delory, M. R. Collier, D. H. Berrios, and R. R.Vondrak. Lunar Surface Charging in the Magnetotail. AGU Fall Meeting Abstracts, December 2008.

[151] E. M. Harnett, R. M. Winglee, J. A. Porter, and J. Halekas. Energetic Oxygen Flux at the Moon.AGU Fall Meeting Abstracts, December 2008.

[152] J. S. Halekas, G. T. Delory, R. P. Lin, T. J. Stubbs, and W. M. Farrell. The E↵ects of Solar EnergeticParticle Events on the Lunar Plasma Environment. AGU Fall Meeting Abstracts, December 2008.

[153] M. R. Collier, T. Stubbs, K. Hills, J. Halekas, W. M. Farrell, G. Delory, J. Espley, and P. Webb. LunarPotential Determination Using Apollo-Ear Data and Modern Measurements and Models. AGU FallMeeting Abstracts, December 2008.

[154] D. Brain, J. Halekas, and J. Eastwood. Observation Of Bulk Atmospheric Escape Operating At Mars.In AAS/Division for Planetary Sciences Meeting Abstracts #40, volume 40 of Bulletin of the AmericanAstronomical Society, page 397, September 2008.

[155] G. T. Delory, W. M. Farrell, J. S. Halekas, T. Stubbs, R. P. Lin, S. Bale, and R. Vondrak. The DynamicLunar Environment: Plasmas, Neutrals, and Dust. In NLSI Lunar Science Conference, volume 1415of LPI Contributions, July 2008.

[156] J. S. Halekas, G. T. Delory, T. J. Stubbs, W. M. Farrell, and R. P. Lin. The Dynamic Plasma andElectric Field Environment near the Lunar Terminator and Polar Regions. In NLSI Lunar ScienceConference, volume 1415 of LPI Contributions, July 2008.

[157] S. D. Bale, K. Goetz, J. Halekas, G. T. Delory, R. P. Lin, C. A. Cattell, and M. L. Kaiser. The DustElectric Waveform Detector (DEWD) for the LADEE Mission. In NLSI Lunar Science Conference,volume 1415 of LPI Contributions, July 2008.

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[158] R. P. Lin, J. S. Halekas, G. T. Delory, S. D. Bale, D. Krauss-Varban, M. Oieroset, and T. Phan.The Moon: A Unique Laboratory for Study of the Fundamental Physics of Magnetized CollisionlessPlasmas. In NLSI Lunar Science Conference, volume 1415 of LPI Contributions, July 2008.

[159] V. Angelopoulos, D. G. Sibeck, W. M. Farrell, G. T. Delory, J. Halekas, R. Lillis, D. Brain, K. K.Khurana, C. T. Russell, M. G. Kivelson, N. Murphy, D. Shriver, P. Travnicek, J. Bonnell, D. Larson,J. McFadden, and K.-H. Glassmeier. ARTEMIS: A Two-Satellite Mission to Study Moon in 2010-2012and Beyond. In NLSI Lunar Science Conference, volume 1415 of LPI Contributions, July 2008.

[160] M. Fuller and J. S. Halekas. The Role of Impact Related Shock in Lunar Magnetism. In Lunarand Planetary Science Conference, volume 39 of Lunar and Planetary Science Conference, page 1430,March 2008.

[161] M. E. Purucker, J. W. Head, and J. S. Halekas. Magnetic Signatures of Lunar Multi-Ringed ImpactBasins: New Constraints on the Timing of the Putative Lunar Dynamo. In Lunar and PlanetaryScience Conference, volume 39 of Lunar and Planetary Science Conference, page 1655, March 2008.

[162] R. A. Carley, M. E. Purucker, J. S. Halekas, and K. A. Whaler. Quantitative Comparison of LunarProspector Magnetometer and Electron Reflectometer Data. In Lunar and Planetary Science Confer-ence, volume 39 of Lunar and Planetary Science Conference, page 1959, March 2008.

[163] J. S. Halekas, G. T. Delory, T. J. Stubbs, W. M. Farrell, and R. P. Lin. Lunar Surface Charging: Mag-nitude and Implications as a Function of Space and Time. In Lunar and Planetary Science Conference,volume 39 of Lunar and Planetary Science Conference, page 1365, March 2008.

[164] T. J. Stubbs, W. M. Farrell, J. S. Halekas, M. R. Collier, G. T. Delory, D. A. Glenar, and R. R. Vondrak.A Heliophysical Monitoring Network for the Near-Surface Lunar Plasma and Radiation Environments.In Lunar and Planetary Science Conference, volume 39 of Lunar and Planetary Science Conference,page 2467, March 2008.

[165] D. Brain, J. Eastwood, J. Halekas, J. Drake, T. Phan, M. Oieroset, D. Mitchell, R. Lin, and M. Acuna.Evidence for Collisionless Magnetic Reconnection at Mars. AGU Fall Meeting Abstracts, December2007.

[166] E. M. Harnett, R. M. Winglee, and J. S. Halekas. Advanced Computer Modeling of the Lunar PlasmaEnvironment in the Dynamic Terrestrial Magnetosphere. AGU Fall Meeting Abstracts, December 2007.

[167] T. J. Stubbs, W. M. Farrell, M. R. Collier, J. S. Halekas, G. T. Delory, M. P. Holland, and R. R.Vondrak. Supercharging of the Lunar Surface by Solar Wind Halo Electrons. AGU Fall MeetingAbstracts, December 2007.

[168] J. S. Halekas, G. T. Delory, D. A. Brain, R. P. Lin, M. O. Fillingim, C. O. Lee, R. A. Mewaldt, T. J.Stubbs, W. M. Farrell, and M. K. Hudson. Lunar Surface Charging During Solar Energetic ParticleEvents. AGU Fall Meeting Abstracts, December 2007.

[169] T. Stubbs, W. Farrell, G. Delory, M. Collier, J. Halekas, and R. Vondrak. Tackling the Lunar Dust-Plasma Environment: Challenges for Science and Exploration. In AAS/Division for Planetary SciencesMeeting Abstracts #39, volume 39 of Bulletin of the American Astronomical Society, page 459, October2007.

[170] M. O. Fillingim, L. M. Peticolas, R. J. Lillis, D. A. Brain, J. S. Halekas, D. Lummerzheim, and S. W.Bougher. Ionization Patches on the Night Side of Mars and Their Seasonal and Solar Cycle Variations.In Seventh International Conference on Mars, volume 1353 of LPI Contributions, page 3336, July 2007.

[171] D. A. Brain, J. G. Luhmann, J. S. Halekas, D. L. Mitchell, R. P. Lin, S. Barabash, T. Zhang, R. Frahm,and D. Winningham. Angular Electron Distributions at Mars and Venus. AGU Spring Meeting Ab-stracts, May 2007.

[172] J. S. Halekas, D. A. Brain, R. P. Lin, and D. L. Mitchell. Global vs. Mini-Magnetospheres: Di↵erencesand Similarities. AGU Spring Meeting Abstracts, May 2007.

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[173] M. Fuller, J. Halekas, T. Adachi, G. Kletetschka, and T. Kohout. Lunar Magnetism: IRMs Normal-ization and Impact Related Magnetization. AGU Spring Meeting Abstracts, May 2007.

[174] D. Crider, T. Golla, R. MacDowall, M. Acuna, J. Espley, and J. Halekas. Solar Wind Influences onWaves in the Magnetic Field Measured on the Lunar Dayside. AGU Spring Meeting Abstracts, May2007.

[175] T. J. Stubbs, J. S. Halekas, W. M. Farrell, R. R. Vondrak, J. K. Burchill, G. T. Delory, and R. F.Pfa↵. Dependence of Lunar Surface Charging on Ambient Plasma Conditions and Solar Irradiation.AGU Spring Meeting Abstracts, May 2007.

[176] J. S. Halekas, G. T. Delory, D. A. Brain, R. P. Lin, T. J. Stubbs, and W. M. Farrell. Surface Chargingon Airless Bodies. AGU Spring Meeting Abstracts, May 2007.

[177] J. S. Halekas, D. A. Brain, R. P. Lin, J. G. Luhmann, and D. L. Mitchell. Mars Global SurveyorNightside Electron Observations. AGU Spring Meeting Abstracts, May 2007.

[178] M. O. Fillingim, L. M. Peticolas, R. J. Lillis, D. A. Brain, J. S. Halekas, D. Lummerzheim, andS. W. Bougher. Localized Ionization Patches on the Nightside of Mars and Their Dependence UponAtmospheric Variations. AGU Spring Meeting Abstracts, May 2007.

[179] D. A. Brain, J. S. Halekas, J. P. Eastwood, D. L. Mitchell, and R. P. Lin. Small-scale Physical Processesin the Plasma Environment of Mars. AGU Spring Meeting Abstracts, May 2007.

[180] D. Brain, J. Luhmann, J. Halekas, R. Frahm, D. Winningham, and S. Barabash. Simultaneous MarsExpress / MGS observations of plasma near Mars. AGU Fall Meeting Abstracts, December 2006.

[181] J. S. Halekas, G. T. Delory, T. J. Stubbs, W. M. Farrell, and R. R. Vondrak. Lunar Electric Fields:Observations and Implications. AGU Fall Meeting Abstracts, December 2006.

[182] M. Fuller and J. Halekas. The Paradox of Lunar Magnetism. AGU Fall Meeting Abstracts, December2006.

[183] W. Farrell, G. Delory, T. Stubbs, M. Collier, J. Keller, J. Halekas, and R. Vondrak. Lunar Emis-sions, Electrons, and Dust (LEED): An Instrument for Assessment of the Hazards of the Dusty-Plasma/Surface Environment. AGU Fall Meeting Abstracts, December 2006.

[184] S. D. Bale, G. T. Delory, R. P. Lin, J. W. Hines, B. Yost, W. M. Farrell, J. Halekas, T. J. Stubbs,T. Zurbuchen, J. W. Keller, M. R. Collier, A. J. Ricco, J. Bonnell, V. Angelopoulos, and R. R. Vondrak.The Lunar Explorer for Elements and Hazards (LEEAH) Mission: Characterizing Lunar- HeliosphericInteractions for Both Science and Exploration. AGU Fall Meeting Abstracts, December 2006.

[185] R. R. Vondrak, T. J. Stubbs, W. M. Farrell, J. S. Halekas, and G. T. Delory. Impact of Space Weatheron the Lunar Electrodynamic Environment. AGU Fall Meeting Abstracts, December 2006.

[186] R. J. Lillis, H. V. Frey, M. Manga, J. S. Halekas, D. L. Mitchell, and R. P. Lin. Windows on Martiandynamo history: electron reflection (ER) magnetic signatures and crater retention ages of basins andvolcanoes. AGU Fall Meeting Abstracts, December 2006.

[187] E. M. Harnett, R. M. Winglee, J. S. Halekas, and J. A. Porter. Advanced Computer Modeling of theLunar Plasma Environment in the Dynamic Terrestrial Magnetosphere. AGU Fall Meeting Abstracts,December 2006.

[188] M. O. Fillingim, J. S. Halekas, and R. P. Lin. Determining the magnetospheric convection electric fieldfrom lunar shadowing: Past, present, and future. AGU Fall Meeting Abstracts, December 2006.

[189] E. Harnett, R. Winglee, and J. Halekas. Advanced Computer Modeling of the Lunar Plasma Environ-ment in the Dynamic Terrestrial Magnetosphere. In American Astronomical Society Meeting Abstracts,volume 38 of Bulletin of the American Astronomical Society, page 936, December 2006.

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[190] R. J. Lillis, D. L. Mitchell, D. A. Brain, J. S. Halekas, and R. P. Lin. Dramatic Martian upperthermospheric neutral density decrease accompanying a solar energetic particle (SEP) event during theHalloween 2003 solar superstorm: atmospheric loss in action? AGU Fall Meeting Abstracts, December2006.

[191] D. Brain, J. Halekas, L. Peticolas, M. Fillingim, R. Lin, J. Luhmann, D. Mitchell, S. Bougher, andD. Lummerzheim. Origin, Variability, and Consequences of the Martian Aurora. AGU Fall MeetingAbstracts, December 2006.

[192] J. S. Halekas, G. T. Delory, R. A. Mewaldt, R. P. Lin, M. O. Fillingim, D. A. Brain, C. O. Lee, T. J.Stubbs, W. M. Farrell, and M. K. Hudson. Lunar Surface Charging during Solar Energetic ParticleEvents. In AAS/Division for Planetary Sciences Meeting Abstracts #38, volume 38 of Bulletin of theAmerican Astronomical Society, page 575, September 2006.

[193] D. Brain, J. Luhmann, J. Halekas, R. Frahm, J. Winningham, and S. Barabash. Multi-spacecraftObservations of the Martian Plasma Interaction. In AAS/Division for Planetary Sciences MeetingAbstracts #38, volume 38 of Bulletin of the American Astronomical Society, page 601, September2006.

[194] M. E. Purucker, T. J. Sabaka, J. Halekas, N. Olsen, N. Tsyganenko, and L. L. Hood. The LunarMagnetic Field Environment: Interpretation of New Maps of the Internal and External Fields. InS. Mackwell and E. Stansbery, editors, 37th Annual Lunar and Planetary Science Conference, volume 37of Lunar and Planetary Science Conference, March 2006.

[195] T. J. Stubbs, J. S. Halekas, W. M. Farrell, R. R. Vondrak, and G. T. Delory. Global Modeling of theElectrostatic Lunar Surface Potential. In S. Mackwell and E. Stansbery, editors, 37th Annual Lunarand Planetary Science Conference, volume 37 of Lunar and Planetary Science Conference, March 2006.

[196] O. Witasse, F. Leblanc, J. Winningham, R. Frahm, D. Brain, J. Lilensten, P.-L. Blelly, J.-L. Bertaux,and J. Halekas. Martian aurora. In European Planetary Science Congress 2006, page 27, 2006.

[197] J. S. Halekas, D. A. Brain, L. M. Peticolas, R. P. Lin, J. G. Luhmann, D. L. Mitchell, S. W. Bougher,and D. Lummerzheim. Origin and expected variability of Martian aurorae. In 36th COSPAR ScientificAssembly, volume 36 of COSPAR Meeting, 2006.

[198] J. S. Halekas, D. A. Brain, R. P. Lin, and D. L. Mitchell. Comparative mini-magnetospheres: Moonand Mars. In 36th COSPAR Scientific Assembly, volume 36 of COSPAR Meeting, 2006.

[199] J. S. Halekas, D. A. Brain, R. J. Lillis, M. O. Fillingim, R. P. Lin, and D. L. Mitchell. Current sheetsin the Martian magnetotail. In 36th COSPAR Scientific Assembly, volume 36 of COSPAR Meeting,2006.

[200] D. A. Brain, J. S. Halekas, M. O. Fillingim, R. J. Lillis, L. M. Peticolas, R. P. Lin, J. G. Luhmann, D. L.Mitchell, G. T. Delory, and M. H. Acuna. Observation of Auroral-like Peaked Electron Distributionsat Mars. AGU Fall Meeting Abstracts, December 2005.

[201] M. O. Fillingim, L. M. Peticolas, R. J. Lillis, D. A. Brain, J. S. Halekas, R. P. Lin, D. Lummerzheim,and S. W. Bougher. Calculating Martian Auroral Emission including Strong Field Gradients andAccelerated Electron Spectra. AGU Fall Meeting Abstracts, December 2005.

[202] T. J. Stubbs, J. S. Halekas, W. M. Farrell, and R. R. Vondrak. Global Modeling of the Lunar SurfaceElectric Field. AGU Fall Meeting Abstracts, December 2005.

[203] D. H. Crider, D. A. Brain, A. M. Krymskii, T. K. Breus, M. H. Acuna, and J. S. Halekas. PersistentAsymmetries in the Magnetic Field Near Mars. AGU Fall Meeting Abstracts, December 2005.

[204] J. S. Halekas. Solar Wind Interaction With the Lunar Environment. AGU Fall Meeting Abstracts,December 2005.

[205] L. Wang, R. P. Lin, J. S. Halekas, R. Lillis, and D. L. Mitchell. Multi-spacecraft observations of Solarenergetic electron events. AGU Fall Meeting Abstracts, December 2005.

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[206] J. S. Halekas, D. A. Brain, and D. L. Mitchell. Solar Wind Interaction with Lunar Crustal MagneticFields. AGU Fall Meeting Abstracts, December 2005.

[207] T. J. Stubbs, J. S. Halekas, W. M. Farrell, and R. R. Vondrak. Lunar Surface Charging: A GlobalPerspective Using Lunar Prospector Data. In Dust in Planetary Systems, volume 1280 of LPI Contri-butions, page 139, September 2005.

[208] D. A. Brain, J. S. Halekas, R. P. Lin, J. G. Luhmann, D. L. Mitchell, G. T. Delory, R. J. Lillis, M. O.Fillingim, and M. H. Acuna. Observed Locations and Conditions for Aurora on Mars. In AAS/Divisionfor Planetary Sciences Meeting Abstracts #37, volume 37 of Bulletin of the American AstronomicalSociety, page 691, August 2005.

[209] R. J. Lillis, D. A. Brain, J. S. Halekas, D. L. Mitchell, and R. P. Lin. December 27th Magnetar EventObservations by Mars Global Surveyor. In S. Mackwell and E. Stansbery, editors, 36th Annual Lunarand Planetary Science Conference, volume 36 of Lunar and Planetary Science Conference, March 2005.

[210] J. S. Halekas. Large Negative Lunar Surface Potentials. AGU Fall Meeting Abstracts, December 2004.

[211] R. P. Lin, D. Mitchell, R. Lillis, and J. Halekas. Magnetic Mapping of the Moon and Mars UsingElectron Reflection Magnetometry. AGU Fall Meeting Abstracts, December 2004.

[212] J. S. Halekas, S. D. Bale, and D. L. Mitchell. Solar Wind Interaction With the Moon. AGU SpringMeeting Abstracts, May 2004.

[213] J. S. Halekas, R. P. Lin, and D. L. Mitchell. Magnetic E↵ects of Impacts on the Moon. AGU FallMeeting Abstracts, December 2003.

[214] J. S. Halekas and R. P. Lin. Magnetic Fields of Lunar Impact Basins and Their Use in Constraining theImpact Process. In R. Herrick and E. Pierazzo, editors, Impact Cratering: Bridging the Gap BetweenModeling and Observations, volume 1155, page 28, January 2003.

[215] S. Frey, J. S. Halekas, D. L. Mitchell, and R. P. Lin. Investigation of Lunar Crustal Magnetic Fields,Surface Properties, and Impacts. AGU Fall Meeting Abstracts, December 2002.

[216] G. T. Delory, D. L. Mitchell, J. S. Halekas, R. P. Lin, and S. Frey. Correlations Between In Situand Remotely Sensed Magnetic Anomalies on the Lunar Prospector Mission. AGU Spring MeetingAbstracts, May 2002.

[217] J. S. Halekas, D. L. Mitchell, R. P. Lin, S. Frey, L. L. Hood, M. H. Acuna, and A. Binder. MagneticProperties of Lunar Geologic Terranes: New Statistical Results. In Lunar and Planetary ScienceConference, volume 33 of Lunar and Planetary Science Conference, March 2002.

[218] S. Frey, J. S. Halekas, D. L. Mitchell, and R. P. Lin. Cluster Analysis of Lunar Magnetism, GravityAnomalies, and Topology. In Lunar and Planetary Science Conference, volume 33 of Lunar andPlanetary Science Conference, March 2002.

[219] L. L. Hood, N. C. Richmond, and J. Halekas. The Global Distribution of Martian Crustal MagneticFields: Interpretation and Implications. In Lunar and Planetary Science Conference, volume 33 ofLunar and Planetary Science Conference, March 2002.

[220] N. C. Richmond, L. L. Hood, J. S. Halekas, D. L. Mitchell, R. P. Lin, M. H. Acuna, and A. B.Binder. Sources of Near Side Lunar Magnetic Anomalies. In Lunar and Planetary Science Conference,volume 33 of Lunar and Planetary Science Conference, March 2002.

[221] N. C. Richmond, L. L. Hood, J. S. Halekas, D. L. Mitchell, R. P. Lin, M. H. Acuna, and A. B. Binder.Mapping and Interpretation of Lunar Crustal Magnetic Fields Using Lunar Prospector MagnetometerData. In EGS General Assembly Conference Abstracts, volume 27 of EGS General Assembly ConferenceAbstracts, 2002.

[222] L. L. Hood, J. S. Halekas, D. L. Mitchell, and R. P. Lin. Constraints on the Origin of Lunar CrustalMagnetism. In The Moon Beyond 2002: Next Steps in Lunar Science and Exploration, page 20, January2002.

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