VENUS

作品数:197被引量:84H指数:5
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Mantle avalanches in a Venus-like stagnant lid planet
《Earth and Planetary Physics》2024年第5期686-702,共17页Madeleine C.Kerr Dave R.Stegman 
The authors are thankful for support from NASA Award 80NSSC22K0100;U.S.Department of Energy Computational Science Graduate Fellowship under Award Number DESC0022158;Computational resources were provided by Extreme Science and Engineering Discovery Environment(XSEDE),which is supported by National Science Foundation grant number ACI-1053575;This research used resources of the National Energy Research Scientific Computing Center(NERSC),a Department of Energy Office of Science User Facility using NERSC award ASCRERCAP0026889.
Stagnant lid planets are characterized by a globe-encircling,conducting lid that is thick and strong,which leads to reduced global surface heat flows.Consequently,the mantles of such planets can have warmer interiors ...
关键词:VENUS mantle avalanches numerical modelling phase transitions 
Recent investigations of the near-Mars space environment by the planetary aeronomy and space physics community in China被引量:1
《Earth and Planetary Physics》2020年第1期1-3,共3页Jun Cui ZhaoJin Rong Yong Wei YuMing Wang 
The present issue of Earth and Planetary Physics is dedicated to the near-space neutral and plasma environments of Mars.The issue includes nine papers that present new results on the properties of the Martian exospher...
关键词:MARS VENUS EXOSPHERE ionosphere MAGNETOSPHERE 
EUV-dependence of Venusian dayside ionopause altitude:VEX and PVO observations被引量:1
《Earth and Planetary Physics》2020年第1期73-81,共9页QianQian Han Markus Fraenz Yong Wei Eduard Dubinin Jun Cui LiHui Chai ZhaoJin Rong WeiXing Wan Yoshifumi Futaana 
supported by the National Natural Science Foundation of China (41525016, 41525015, 41661164034, 41621063);the National Important Basic Research Project (2011CB811405);supported by the Thousand Young Talents Program of China
The Venusian dayside ionosphere, similar to other planetary ionospheres, is produced primarily by ionization of its neutral upper atmosphere due to solar extreme ultraviolet (EUV) radiation. It has become clear that t...
关键词:VENUS ionopause IONOSPHERE solar activity 
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