Variability of Upstream Proton Cyclotron Wave Properties and Occurrence at Mars observed by MAVEN

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https://agupubs.onlinelibrary.wiley.com/doi/abs/10.1029/2020JA028616

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https://doi.org/10.1029/2020JA028616
 http://hdl.handle.net/11603/20552

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UMBC Center for Space Sciences and Technology (CSST) / Center for Research and Exploration in Space Sciences & Technology II (CRSST II)
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UMBC Physics Department

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2020-12-11

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journal articles postprints
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Romeo, O. M.; Romanelli, N.; Espley, J. R.; Mazelle, C.; DiBraccio, G. A.; Gruesbeck, J. R.; Halekas, J. S.; Variability of Upstream Proton Cyclotron Wave Properties and Occurrence at Mars observed by MAVEN; JOurnal of Geophysical Research: Space Physics (2020); https://agupubs.onlinelibrary.wiley.com/doi/abs/10.1029/2020JA028616

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This work was written as part of one of the author's official duties as an Employee of the United States Government and is therefore a work of the United States Government. In accordance with 17 U.S.C. 105, no copyright protection is available for such works under U.S. Law

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Abstract

The presence of plasma waves upstream from the Martian bow shock, with frequencies near the local proton cyclotron frequency in the spacecraft frame, constitutes, in principle, an indirect signature for the existence of planetary protons from the ionization of Martian exospheric hydrogen. In this study, we determine the ‘proton cyclotron wave’ (PCW) occurrence rate between October 2014 through February 2020, based on Magnetometer (MAG) and Solar Wind Ion Analyzer (SWIA) measurements from the Mars Atmosphere and Volatile EvolutioN (MAVEN) mission. We characterize its dependence on several wave and solar wind (SW) properties, and solar longitude ranges. We confirm a previously reported long‐term trend with more PCWs near perihelion, likely associated with changes in exospheric hydrogen density. Furthermore, we report for the first time a decrease in median PCW amplitude for each consecutive Martian perihelion. Such variability cannot be attributed to differences in the distribution of SW conditions. This trend could be associated with changes in solar inputs, foreshock effects, and asymmetries due to the SW convective electric field influencing newborn protons. In addition, we observe PCWs more frequently for low to intermediate interplanetary magnetic field (IMF) cone angles, slower SW speeds, and higher SW proton densities. The IMF cone angle preference likely results from the trade‐off between associated linear wave growth rates, wave saturation energies, and pick‐up proton densities. Moreover, the dependencies on SW speed and density indicate the importance of the characteristic SW transit timescale and the charge exchange process coupling SW protons with the hydrogen exosphere.