PROMPT SIMULTANEOUS ACCELERATION OF PROTONS AND ELECTRONS TO RELATIVISTIC ENERGIES BY SHOCK WAVES IN SOLAR FLARES

The annual research report Pub Date : 1987-10-01 DOI:10.1086/166668
Y. Ohsawa, J. Sakai
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引用次数: 22

Abstract

It is shown by theory and fully relativistic, electromagnetic particle simulation that a collisionless fast magnetosonic shock wave can promptly accelerate protons and electrons to relativistic energies; proton energies greater than about 10 to the 9th eV and electron energies greater than about 10 to the 6th eV. The time needed for the proton acceleration is of the order of the ion cyclotron period and is quite short (much less than 1 s for solar plasmas). The electron acceleration time is shorter than the ion cyclotron period. The present shock acceleration mechanism can explain important features of observed particle acceleration in the impulsive phase of solar flares; simultaneous and prompt acceleration of protons and electrons to relativistic energies. 31 references.
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太阳耀斑中的激波促使质子和电子同时加速到相对论能量
理论和完全相对论的电磁粒子模拟表明,无碰撞的快速磁声激波可以迅速地将质子和电子加速到相对论能量;质子能量大于10的9次方eV,电子能量大于10的6次方eV。质子加速所需的时间是离子回旋周期的数量级,而且相当短(远小于太阳等离子体的1秒)。电子加速时间比离子回旋周期短。目前的激波加速机制可以解释在太阳耀斑脉冲阶段观测到的粒子加速的重要特征;质子和电子同时迅速加速到相对论能量。31日引用。
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The annual research report
The annual research report
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