Dataset
Solar wind ENA precipitation in the Martian atmosphere: Monte Carlo simulation results
Dryad
03/19/2025
DOI: 10.5061/dryad.djh9w0wb0
Abstract
Since Mars has an extended hydrogen corona, solar wind protons can charge exchange with the atomic constituents to become energetic hydrogen atoms, also called "energetic neutral atoms (ENAs)". These ENAs can access the Martian atmosphere unhindered by the induced magnetosphere and crustal fields and are slowed by collisions until they are either turned away from Mars or absorbed by the Martian atmosphere. The manuscript (Sorgi Johann et al. ) calibrates a model of ENA precipitation using MAVEN spacecraft data and quantifies the hydrogen imparted by the solar wind over a decade. The model results used in that paper are produced by ASPEN, a test particle model that calculates energy deposited in an atmosphere [Jolitz et al. 2017]. This dataset includes the logged positions, types, and species impacted in modeled collisions, as well as the positions of simulated particles when they cross a predefined grid. This was used to build 3D histograms of energy deposition and 3D fluxes as a function of altitude.
Details
- Title: Subtitle
- Solar wind ENA precipitation in the Martian atmosphere: Monte Carlo simulation results
- Creators
- Rebecca Jolitz - University of California, BerkeleyM. L. Sorgi Johann - University of California, BerkeleyRobert Lillis - University of California, BerkeleyJasper Halekas - University of Iowa
- Resource Type
- Dataset
- DOI
- 10.5061/dryad.djh9w0wb0
- Publisher
- Dryad
- Grant note
- NNX16AO84G / NASA Planetary Science (https://ror.org/04cr1bk24) NNH10CC04C / National Aeronautics and Space Administration (https://ror.org/027ka1x80)
- Language
- English
- Date published
- 03/19/2025
- Academic Unit
- Physics and Astronomy
- Record Identifier
- 9984802413402771
Metrics
38 Record Views