Yihui Song scite author profile

Yihui Song

2Publications

10Citation Statements Received

187Citation Statements Given

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Beihang University

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Effects of Force in the Martian Plasma Environment With Solar Wind Dynamic Pressure Enhancement

Song

Cao

et al. 2023

JGR Space Physics

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As a terrestrial planet, Mars possesses a series of spatial structures and atmospheric evolution processes which are similar to the ones on Earth. It is widely believed that studying the plasma environment and atmospheric erosion mechanisms of Mars has important meanings for understanding the climate change in Mars history, as well as the future evolution of Earth's atmosphere. Unlike Earth, Mars does not have a global magnetic field of internal origin, but possesses remnant crustal magnetic field located mostly in the southern hemisphere (Acuna

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Influence of the Martian crustal magnetic fields on the Mars-solar wind interaction and plasma transport

et al. 2023

Front. Astron. Space Sci.

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The plasma transport process is important for the ionosphere of Mars, which controls the structure of the ionosphere above an altitude of 200 km. Plasma transport from the dayside ionosphere is crucial for producing the nightside ionosphere on Mars. The alteration in dayside plasma transport in the presence of crustal fields may influence the distribution of Martian ionospheric plasma and plasma escape in the magnetotail. This study employed a three-dimensional multispecies magnetohydrodynamic (MHD) model to simulate Mars-solar wind interactions. We show the magnetic field distribution and plasma velocity variation on the Martian day-side. The results indicate that the ion transport from low- to high-solar-zenith-angle areas in the south is inhibited by crustal fields, leading to a reduction in the ion number density and a thinner ionosphere near the southern terminator. Many heavy ions remain in the southern dayside ionosphere rather than moving to the nightside. In addition, the maximum reduction in the tailward flux of the planetary ions calculated by the MHD simulation is more than 50% at the southern terminator, indicating an inhibitory effect of the crustal fields on day-to-night transport. These effects may lead to a reduction in ion number density in the southern nightside ionosphere. Finally, we demonstrate a decrease in the global heavy-ion loss rate.

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Yihui Song

Effects of Force in the Martian Plasma Environment With Solar Wind Dynamic Pressure Enhancement

Influence of the Martian crustal magnetic fields on the Mars-solar wind interaction and plasma transport

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