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Theories and Simulations in Substorm Research:A Review

Theories and Simulations in Substorm Research:A Review
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摘要 Both theory and simulation have played important roles in defining and illuminating the key mechanisms involved in substorms.Basic theories of magnetic reconnection and of interchange and ballooning instabilities were developed more than 50 years ago,and these plasma physical concepts have been central in discussions of substorm physics.A vast amount of research on reconnection,including both theoretical and computational studies,has helped provide a picture of how reconnection operates in the collisionless environment of the magnetosphere.Still,however,we do not fully understand how key microscale processes and large-scale dynamics work together to determine the location and rate of reconnection.While in the last twenty years,it has become clear that interchange processes are important for transporting plasma through the plasma sheet in the form of bursty bulk flows and substorm expansions,we still have not reached the point where simulations are able to realistically and defensibly represent all of the important aspects of the phenomenon.More than two decades ago it was suggested that the ballooning instability,the basic theory for which dates from the 1950s,may play an important role in substorms.Now the majority of experts agree that regions of the plasma sheet are often linearly unstable to ideal-MHD ballooning.However,it is also clear that kinetic effects introduce important modifications to the MHD stability criterion.It is still uncertain whether ballooning plays a leading role in substorms or has just a minor part.Among the different types of simulations that have been applied to the substorm problem,global MHD codes are unique in that,in a sense, they represent the entire global substorm phenomenon,including coupling to the solar wind and ionosphere, and the important mechanisms of reconnection,interchange,and ballooning.However,they have not yet progressed to the point where they can accurately represent the whole phenomenon,because grid-resolution problems limit the accuracy with which they can solve the equations of ideal MHD and the couphng to the ionosphere,and they cannot accurately represent small-scale processes that violate ideal MHD. Both theory and simulation have played important roles in defining and illuminating the key mechanisms involved in substorms.Basic theories of magnetic reconnection and of interchange and ballooning instabilities were developed more than 50 years ago,and these plasma physical concepts have been central in discussions of substorm physics.A vast amount of research on reconnection,including both theoretical and computational studies,has helped provide a picture of how reconnection operates in the collisionless environment of the magnetosphere.Still,however,we do not fully understand how key microscale processes and large-scale dynamics work together to determine the location and rate of reconnection.While in the last twenty years,it has become clear that interchange processes are important for transporting plasma through the plasma sheet in the form of bursty bulk flows and substorm expansions,we still have not reached the point where simulations are able to realistically and defensibly represent all of the important aspects of the phenomenon.More than two decades ago it was suggested that the ballooning instability,the basic theory for which dates from the 1950s,may play an important role in substorms.Now the majority of experts agree that regions of the plasma sheet are often linearly unstable to ideal-MHD ballooning.However,it is also clear that kinetic effects introduce important modifications to the MHD stability criterion.It is still uncertain whether ballooning plays a leading role in substorms or has just a minor part.Among the different types of simulations that have been applied to the substorm problem,global MHD codes are unique in that,in a sense, they represent the entire global substorm phenomenon,including coupling to the solar wind and ionosphere, and the important mechanisms of reconnection,interchange,and ballooning.However,they have not yet progressed to the point where they can accurately represent the whole phenomenon,because grid-resolution problems limit the accuracy with which they can solve the equations of ideal MHD and the couphng to the ionosphere,and they cannot accurately represent small-scale processes that violate ideal MHD.
作者 R.A.WOLF
出处 《空间科学学报》 CAS CSCD 北大核心 2011年第2期125-149,共25页 Chinese Journal of Space Science
基金 supported by the NASA Heliospheric Theory Program under grant NNX08AI55G
关键词 SUBSTORM RECONNECTION INTERCHANGE Simulations Substorm Reconnection Interchange Simulations
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  • 1Schwarzschild B. Enormous reconnection event washes over three spacecraft millions of kilometers apart [J]. Phys. Today, 2006, 59(3):18-22.
  • 2Paschmann G. Space physics: Breaking through the lines [J]. Nature, 2006, 439(7073):144-145.
  • 3Giovanelli R G. A theory of chromospheric flares [J]. Nature, 1946, 158(4003):81-82.
  • 4Hoyle F. Some Recent Researches in Solar Physics [M]. Cambridge: Cambridge University Press, 1949.
  • 5Dungey J W. Conditions for occurrence of electrical discharges in astrophysical systems[J]. Phil. Mag., 1953, 44(354): 725-738.
  • 6Furth H I, Killeen J, Rosenbluth M N. Finite-resistivity instabilities in a sheet pinch [J]. Phys. Fluids, 1963, 6(4): 459-484.
  • 7Siscoe G L. Solar system magnetohydrodynamics [M]// Carovillano R L, Forbes J M. Solar-Terrestrial Physics. Dordrecht-Holland; D. Reidel Publ. Co. 1983. 11-100.
  • 8Sweet P A. The neutral point theory of solar flares[M]//Lehnert Bed. Electromagnetic Phenomena in Cosmical Physics. London: Cambridge University Press. 1958. 123-134.
  • 9Parker E N. Sweet's mechanism for merging magnetic fields in conducting fluids[J]. J. Geophys. Res., 1957, 62(4):509-520.
  • 10Petschek H E. Magnetic field annihilation [C]//Proceedings of the AAS-NASA Symposium on the Physics of Solar Flares, NASA Spec Publ SP-50, F, 1964, NASA.

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