Model‐based constraints on the lunar exosphere derived from ARTEMIS pickup ion observations in the terrestrial magnetotail

A. R Poppe; J. S Halekas; R Samad; M Sarantos; G. T Delory

doi:10.1002/jgre.20090

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Model‐based constraints on the lunar exosphere derived from ARTEMIS pickup ion observations in the terrestrial magnetotail

Journal article

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Model‐based constraints on the lunar exosphere derived from ARTEMIS pickup ion observations in the terrestrial magnetotail

A. R Poppe, J. S Halekas, R Samad, M Sarantos and G. T Delory

Journal of geophysical research. Planets, Vol.118(5), pp.1135-1147

05/2013

DOI: 10.1002/jgre.20090

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Abstract

We use Acceleration, Reconnection, Turbulence and Electrodynamics of the Moon's Interaction with the Sun (ARTEMIS) measurements of lunar exospheric pickup ions in the terrestrial magnetotail lobes combined with a particle‐tracing model to constrain the source species and distributions of the lunar neutral exosphere. These pickup ions, generated by photoionization of neutral species while the Moon is in the magnetotail lobes, undergo acceleration from both the magnetotail convection electric field and the lunar surface photoelectric field, giving rise to distinct pickup ion flux, pitch angle, and energy distributions. By simulating the behavior of lunar pickup ions in the magnetotail lobes and the response of the twin ARTEMIS probes under various ambient conditions, we can constrain several physical quantities associated with these observations, including the source ion production rate and the magnetotail convection velocity (and hence, electric field). Using the model‐derived source ion production rate and established photoionization rates, we present upper limits on the density of several species potentially in the lunar exosphere. In certain cases, these limits are lower than those previously reported. We also present evidence that the lunar exosphere is displaced toward the lunar dawnside while in the terrestrial magnetotail based on fits to the observed pickup ion distributions. Key Points We present a model of pick‐up ion fluxes at the Moon in the Earth's magnetotailWe use the model to fit ARTEMIS lunar pick‐up ion observations in the m'tailWe improve constraints on lunar exospheric neutral densities and distributions

lunar exosphere

micrometeoroid bombardment

pick‐up ions

surface charging

terrestrial magnetotail

Details

Title: Subtitle: Model‐based constraints on the lunar exosphere derived from ARTEMIS pickup ion observations in the terrestrial magnetotail
Creators: A. R Poppe - University of California, Berkeley
J. S Halekas - University of California, Berkeley
R Samad - University of California, Berkeley
M Sarantos - University of Maryland, Baltimore
G. T Delory - University of California, Berkeley
Resource Type: Journal article
Publication Details: Journal of geophysical research. Planets, Vol.118(5), pp.1135-1147
DOI: 10.1002/jgre.20090
ISSN: 2169-9097
eISSN: 2169-9100
Number of pages: 13
Grant note: THEMIS/ARTEMIS (NAS5‐02099)
Language: English
Date published: 05/2013
Academic Unit: Physics and Astronomy
Record Identifier: 9984199737002771

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