Global Properties of Solar Flares

被引:151
作者
Hudson, Hugh S. [1 ]
机构
[1] SSL UC, Berkeley, CA USA
关键词
Flares; Coronal mass ejection; CORONAL MASS EJECTIONS; HARD X-RAY; WHITE-LIGHT FLARES; ENERGETIC PARTICLE EVENTS; FREE MAGNETIC-FIELDS; YOHKOH-SXT IMAGES; 2006; DECEMBER; ACTIVE-REGION; MORETON WAVE; EIT WAVES;
D O I
10.1007/s11214-010-9721-4
中图分类号
P1 [天文学];
学科分类号
0704 ;
摘要
This article broadly reviews our knowledge of solar flares. There is a particular focus on their global properties, as opposed to the microphysics such as that needed for magnetic reconnection or particle acceleration as such. Indeed solar flares will always remain in the domain of remote sensing, so we cannot observe the microscales directly and must understand the basic physics entirely via the global properties plus theoretical inference. The global observables include the general energetics-radiation in flares and mass loss in coronal mass ejections (CMEs)-and the formation of different kinds of ejection and global wave disturbance: the type II radio-burst exciter, the Moreton wave, the EIT "wave", and the "sunquake" acoustic waves in the solar interior. Flare radiation and CME kinetic energy can have comparable magnitudes, of order 10(32) erg each for an X-class event, with the bulk of the radiant energy in the visible-UV continuum. We argue that the impulsive phase of the flare dominates the energetics of all of these manifestations, and also point out that energy and momentum in this phase largely reside in the electromagnetic field, not in the observable plasma.
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页码:5 / 41
页数:37
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