http://arxiv.org/abs/1903.10473
We study the ionopause of Mars using a database of 6,893 ionopause detections obtained over 11 years by the MARSIS (Mars Advanced Radar for Subsurface and Ionosphere Sounding) radar sounder. The ionopause, in this work, is defined as a steep density gradient that appears in MARSIS remote sounding ionograms as a horizontal line at frequencies below 0.4 MHz. We find that the ionopause is located on average at an altitude of $363 \pm 65$ km. We also find that the ionopause altitude has a weak dependence on solar zenith angle and varies with the solar extreme ultraviolet flux on annual and solar cycle time scales. Furthermore, our results show that less than $10\%$ of the ionopauses are observed when the crustal field strength at 400 km is greater than 20 nT. The strong crustal fields act as mini-magnetospheres that alter the solar wind interaction and prevent the ionopause from forming.
F. Chu, Z. Girazian, D. Gurnett, et. al.
Tue, 26 Mar 19
63/72
Comments: N/A