Title :
Particle acceleration in the frame of the storm-substorm relation
Author :
Daglis, Ioannis A. ; Delcourt, Dominique ; Metallinou, Fiori-Anastasia ; Kamide, Yohsuke
Author_Institution :
Nat. Obs. of Athens, Inst. for Space Applic. & Remote Sensing, Athens, Greece
Abstract :
Acceleration of charged particles is an essential ingredient of both magnetospheric substorms and geospace magnetic storms, and is a critical part of space weather. In the case of geospace storms, the ultimate result of particle acceleration is a bulk flow of electric charge through the inner magnetosphere, commonly known as the ring current. This paper is a critical review of the long-standing issue of the storm-substorm relationship, or, in other words, the capability or the necessity of substorms in the build-up of a storm-time ring current. We mainly address the physical effect itself, (e.g., the bulk acceleration of particles), and not the diagnostic of the process, (e.g., the Dst index), which has been the case very often. Within the framework of particle acceleration, substorms retain their storm-importance due to the acceleration potential of substorm-induced impulsive electric fields.
Keywords :
astrophysical plasma; magnetic storms; magnetosphere; plasma magnetohydrodynamics; reviews; acceleration potential; charged particle acceleration; electric charge bulk flow; geospace magnetic storms; inner magnetosphere; magnetospheric substorms; review; space weather; storm-substorm relation; storm-time ring current; substorm-induced impulsive electric fields; Acceleration; Large-scale systems; Linear particle accelerator; Magnetosphere; Physics; Plasma accelerators; Plasma diagnostics; Space charge; Space heating; Storms; Ionosphere; magnetic storms; magnetosphere; magnetospheric substorms; particle acceleration; plasma heating; ring current; space storms; space weather;
Journal_Title :
Plasma Science, IEEE Transactions on
DOI :
10.1109/TPS.2004.831736
