Nonlinear Alfven waves, discontinuities, proton perpendicular acceleration, and magnetic holes/decreases in interplanetary space and the magnetosphere: intermediate shocks?

被引:90
作者
Tsurutani, BT
Lakhina, GS
Pickett, JS
Guarnieri, FL
Lin, N
Goldstein, BE
机构
[1] CALTECH, Jet Prop Lab, Pasadena, CA 91109 USA
[2] Univ So Calif, Space Sci Ctr, Los Angeles, CA USA
[3] Indian Inst Geomagnet, Bombay, Maharashtra, India
[4] Univ Iowa, Dept Phys & Astron, Iowa City, IA USA
[5] INPE, BR-12227010 Sao Jose Dos Campos, Brazil
[6] Univ Calif Berkeley, Space Sci Lab, Berkeley, CA USA
关键词
D O I
10.5194/npg-12-321-2005
中图分类号
P [天文学、地球科学];
学科分类号
07 ;
摘要
Alfven waves, discontinuities, proton perpendicular acceleration and magnetic decreases (MDs) in interplanetary space are shown to be interrelated. Discontinuities are the phase-steepened edges of Alfven waves. Magnetic decreases are caused by a diamagnetic effect from perpendicularly accelerated (to the magnetic field) protons. The ion acceleration is associated with the dissipation of phase-steepened Alfven waves, presumably through the Ponderomotive Force. Proton perpendicular heating, through instabilities, lead to the generation of both proton cyclotron waves and mirror mode structures. Electromagnetic and electrostatic electron waves are detected as well. The Alfven waves are thus found to be both dispersive and dissipative, conditions indicting that they may be intermediate shocks. The resultant "turbulence" created by the Alfven wave dissipation is quite complex. There are both propagating (waves) and nonpropagating (mirror mode structures and MDs) byproducts. Arguments are presented to indicate that similar processes associated with Alfven waves are occurring in the magnetosphere. In the magnetosphere, the "turbulence" is even further complicated by the damping of obliquely propagating proton cyclotron waves and the formation of electron holes, a form of solitary waves. Interplanetary Alfven waves are shown to rapidly phase-steepen at a distance of 1 AU from the Sun. A steepening rate of similar to 35 times per wavelength is indicated by Cluster-ACE measurements. Interplanetary (reverse) shock compression of Alfven waves is noted to cause the rapid formation of MDs on the sunward side of corotating interaction regions (CIRs). Although much has been learned about the Alfven wave phase-steepening process from space plasma observations, many facets are still not understood. Several of these topics are discussed for the interested researcher. Computer simulations and theoretical developments will be particularly useful in making further progress in this exciting new area.
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页码:321 / 336
页数:16
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