Modeling of Venus, Mars, and Titan

机译：金星，火星和泰坦的建模

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Increased computer capacity has made it possible to model the global plasma and neutral dynamics near Venus, Mars and Saturn's moon Titan. The plasma interactions at Venus, Mars, and Titan are similar because each possess a substantial atmosphere but lacks a global internally generated magnetic field. In this article three self-consistent plasma models are described: the magnetohydrodynamic (MHD) model, the hybrid model and the fully kinetic plasma model. Chamberlain and Monte Carlo models of the Martian exosphere are also described. In particular, we describe the pros and cons of each model approach. Results from simulations are presented to demonstrate the ability of the models to capture the known plasma and neutral dynamics near the three objects.

机译：计算机容量的增加使在金星，火星和土星的卫星土卫六附近模拟全球等离子体和中性动力学成为可能。金星，火星和土卫六上的等离子相互作用相似，因为它们各自具有大量的大气层，但缺乏整体内部产生的磁场。本文介绍了三种自洽的等离子体模型：磁流体动力学（MHD）模型，混合模型和全动力学等离子体模型。还描述了火星外层的张伯伦和蒙特卡罗模型。特别是，我们描述了每种模型方法的利弊。仿真结果表明了模型捕获三个物体附近的已知等离子体和中性动力学的能力。

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《The plasma environment of Venus, Mars, and Titan》|2009年|p.267-307|共41页
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作者
Esa Kallio; Jean-Yves Chaufray; Ronan Modolo; Darci Snowden; Robert Winglee;
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作者单位

Finnish Meteorological Institute, Helsinki, Finland;

Laboratoire de Meteorologie Dynamique, Institut Pierre Simon Laplace, Centre National de la Recherche Scientifique, Paris, France;

Universite de Versailles Saint-Quentin, 45 avenue des Etats-Unis, 78035 Versailles cedex. France Laboratoire Atmospheres, Milieux ct Observations Spatiales, Quartier des Garennes, 11 bd d'Alembert,78280 Guyancourt, France Centre National de la Recherche Scientifique, Quartier des Garennes, 11 bd d'Alembert, 782X0 Guyancourt, France;

Lunar and Planetary Laboratory, University of Arizona, Tucson, AZ, USA;

Department of Earth and Space Sciences, University of Washington. Johnson Hall, Box 351310, Seattle, WA 98195-1310, USA;

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原文格式 PDF
正文语种 eng
中图分类恒星天文学、星系天文学、宇宙学;
关键词
numerical modeling; full kinetic model; hybrid model; magnetohydrodynamic model; exosphere model; venus; mars; titan; planetary magnetospheres; planetary exospheres;

机译：数值建模；全动力学模型混合模型磁流体动力学模型外圈模型金星;火星;泰坦行星磁层；行星外层;
入库时间 2022-08-26 14:23:37

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专利

1. Modeling of Venus, Mars, and Titan [J] . Esa Kallio, Jean-Yves Chaufray, Ronan Modolo, Space Science Reviews . 2011,第1a4期

机译：金星，火星和泰坦的建模
2. Modeling of venus, mars, and titan [J] . Kallio E., Chaufray J.-Y., Modolo R., Space Science Reviews . 2011,第1a4期

机译：金星，火星和泰坦的建模
3. Three-dimensional finite difference time domain modeling of the Schumann resonance parameters on Titan, Venus, and Mars [J] . Heng Yang, Victor P. Pasko, Yoav Yair Radio Science . 2007,第2期

机译：土卫六，金星和火星上舒曼共振参数的三维有限差分时域建模
4. Autonomous Aerobraking Development Software: Phase One Performance Analysis at Mars, Venus, and Titan [C] . Robert W. Maddock, Angela Bowes, Richard W. Powell, AIAA/AAS astrodynamics specialist conference . 2012

机译：自主航空制动开发软件：火星，金星和土卫六的第一阶段性能分析
5. Morphometric analysis and quantitative comparison of channel and valley systems on Titan, Venus, and Earth. [D] . Shmelkina, Iana. 2016

机译：形态分析和定量比较土卫六，金星和地球上的河道和山谷系统。
6. Males are from Mars females are from Venus: sex-specific fetal brain gene expression signatures in a mouse model of maternal diet-induced obesity [O] . Andrea G. EDLOW, Faycal GUEDJ, Jeroen L.A. PENNINGS, -1

机译：雄性来自火星雌性来自金星：母性饮食诱发肥胖的小鼠模型中的性别特异性胎儿脑基因表达特征
7. Modeling of Venus, Mars, and Titan [O] . Kallio Esa, Chaufray Jean-Yves, Modolo Ronan, 2011

机译：金星，火星和泰坦的建模
8. Autonomous Aerobraking Development Software: Phase One Performance Analysis at Mars, Venus, and Titan [R] . Maddock, R W, Bowes, A, Powell, R W, 2012

机译：自主aerobraking开发软件：火星，金星和泰坦的第一阶段性能分析

Modeling of Venus, Mars, and Titan

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