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  • Cao, Y. T., Cui, J., Ni, B. B., Wu, X. S., Luo, Q., and He, Z. G. (2020). Bidirectional electron conic observations for photoelectrons in the Martian ionosphere. Earth Planet. Phys., 4(4), 403–407. doi: 10.26464/epp2020037
    Citation: Cao, Y. T., Cui, J., Ni, B. B., Wu, X. S., Luo, Q., and He, Z. G. (2020). Bidirectional electron conic observations for photoelectrons in the Martian ionosphere. Earth Planet. Phys., 4(4), 403–407. doi: 10.26464/epp2020037
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Bidirectional electron conic observations for photoelectrons in the Martian ionosphere

  • Electron pitch angle distributions similar to bidirectional electron conics (BECs) have been reported at Mars in previous studies based on analyses of Mars Global Surveyor measurements. BEC distribution, also termed “butterfly” distribution, presents a local minimum flux at 90° and a maximum flux before reaching the local loss cone. Previous studies have focused on 115 eV electrons that were produced mainly via solar wind electron impact ionization. Here using Solar Wind Electron Analyzer measurements made onboard the Mars Atmosphere and Volatile Evolution spacecraft, we identify 513 BEC events for 19–55 eV photoelectrons that were generated via photoionization only. Therefore, we are investigating electrons observed in regions well away from their source regions, to be distinguished from 115 eV electrons observed and produced in the same regions. We investigate the spatial distribution of the 19–55 eV BECs, revealing that they are more likely observed on the nightside as well as near strong crustal magnetic anomalies. We propose that the 19–55 eV photoelectron BECs are formed due to day-to-night transport and the magnetic mirror effect of photoelectrons moving along cross-terminator closed magnetic field lines.

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