Global simulation of magnetosonic wave instability in the storm time magnetosphere

Lunjin Chen; Richard M. Thorne; Vania K. JordanovaRichard B. Horne

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Global simulation of magnetosonic wave instability in the storm time magnetosphere

机译：全球模拟磁声波不稳定在暴风雨中磁气圈

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Coupling between the Rice Convection Model and Ring Current–Atmospheric Interactions Model codes is used to simulate the dynamical evolution of ring current ion phase space density and the thermal electron density distribution for the 22 April 2001 storm. The simulation demonstrates that proton ring distributions (df_⊥/dv_⊥ > 0) develop over a broad spatial region during the storm main phase, leading to the instability of equatorial magnetosonic waves. Calculations of the convective growth rate of magnetosonic waves for multiples of the proton gyrofrequency from 2 to 42 are performed globally. We find that the ratio between the perpendicular ring velocity and the equatorial Alfven speed determines the frequency range of unstable magnetosonic waves. Low harmonic waves (ω 20 Ω(H~+)) are excited over a broad spatial region of low density outside the morningside plasmasphere.

机译：大米对流模型和之间的耦合环Current-Atmospheric交互模型代码是用来模拟的动态演化环电流离子相空间密度和热22电子密度分布2001年4月风暴。质子环分布(df_⊥/ dv_⊥> 0)开发期间在一个广泛的空间区域风暴的主要阶段,导致的不稳定性赤道magnetosonic波。对流magnetosonic波的增长率从2质子回旋频率的倍数全球执行42。垂直速度和环之间的比率赤道阿尔芬速度决定了不稳定magnetosonic波的频率范围。低谐波(ω 20Ω(H ~ +))在大空间区域的低感到兴奋密度在晨边等离子体层。

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《Journal of Geophysical Research, A. Space Physics: JGR》 |2010年第11期|A11222:1-A11222:11|共11页
作者
Lunjin Chen; Richard M. Thorne; Vania K. JordanovaRichard B. Horne;
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作者单位

Department of Atmospheric Sciences, University of California, Los Angeles, California, USA.;

Los Alamos National Laboratory, Los Alamos, New Mexico, USA.;

British Antarctic Survey, Natural Environment Research Council, Cambridge, UK.;

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正文语种英语
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gyrofrequency; multiples; frequency rangesPerpendicularmagnetoacoustic wavesmain phasesimulatingGrowth ratedynamical evolution;

机译：陀螺频率;倍数;频率范围垂直磁声波主相位模拟增长率动态演化;

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Global simulation of magnetosonic wave instability in the storm time magnetosphere

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