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Coronal manifestations of preflare activity (1986)

Harrison, R. ; Martens, P. ; Hurford, G. ; [et al.]

In: CASI

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Publication Date: 2013-08-31

Description: A variety of coronal manifestations of precursors or preheating for flares are discussed. Researchers found that almost everyone with a telescope sees something before flares. Whether an all-encompassing scenario will ever be developed is not at all clear at present. The clearest example of preflare activity appears to be activated filaments and their manifestations, which presumably are signatures of a changing magnetic field. But researchers have seen two similar eruptions, one without any evidence of emerging flux (Kundu et al., 1985) and the other with colliding poles (Simon et al., 1984). While the reconnection of flux is generally agreed to be required to energize a flare, the emergence of flux from below (at least on short timescales and in compact regions) does not appear to be a necessary condition. In some cases the cancelling of magnetic flux (Martin, 1984) by horizontal motions instead may provide the trigger (Priest, 1985) Researchers found similarities and some differences between these and previous observations. The similarities, besides the frequent involvement of filaments, include compact, multiple precursors which can occur both at and near (not at) the flare site, and the association between coronal sources and activity lower in the atmosphere (i.e., transition zone and chromosphere).

Keywords: SOLAR PHYSICS

Type: Energetic Phenomena on the Sun: The Solar Maximum Mission Flare Workshop. Proceedings; 32 p

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2

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The Queen's flare - Its structure and development; precursors, pre-flare brightenings, and aftermaths (1983)

Van Tend, W. ; Schadee, A. ; De Jager, C. ; [et al.]

In: Other Sources

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Publication Date: 2019-06-28

Description: A limb flare, which started at about 20:20 UT on April 30, 1980, was observed by several of the instruments on the Solar Maximum Mission (SMM) spacecraft. This flare has been the subject of a joint analysis of the SMM instruments. The present investigation represents a continuation of research reported in part by Woodgate et al. (1981) and Gabriel et al. (1981). Several questions are explored regarding the preflare activity, the evolution of the flare, and its decay. It is concluded that the X-ray brightenings observed before the flare were indicative only of the generally high level of activity from this region. They were not connected with the build-up of energy before the flare since similar brightenings were observed in the region after the flare. At least one brightening occurred at the site of the kernel before the flare. There is also some evidence of a tongue.

Keywords: SOLAR PHYSICS

Type: Solar Physics (ISSN 0038-0938); 84; April 19

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3

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Relationships of a growing magnetic flux region to flares (1984)

Antalova, A. ; Jones, H. ; Dezso, L. ; [et al.]

In: Other Sources

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Publication Date: 2019-06-28

Description: The evolution of flare sites at the boundaries of major new and growing magnetic flux regions within complexes of active regions has been analyzed using H-alpha images. A spectrum of possible relationships of growing flux regions to flares is described. An 'intimate' interaction between old and new flux and flare sites occurs at the boundaries of their regions. Forced or 'intimidated' interaction involves new flux pushing older, lower flux density fields toward a neighboring old polarity inversion line, followed by the occurrence of a flare. In 'influential' interaction, magnetic lines of force over an old polarity inversion line reconnect to new emerging flux, and a flare occurs when the magnetic field overlying the filament becomes too weak to prevent its eruption. 'Inconsequential' interaction occurs when a new flux region is too small or has the wrong orientation for creating flare conditions. 'Incidental' interaction involves a flare occurring without any significant relationship to new flux regions.

Keywords: SOLAR PHYSICS

Type: Advances in Space Research (ISSN 0273-1177); 4; 7 19

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4

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High resolution microwave and X-ray observations of solar flares (1988)

Alissandrakis, C. E. ; Kundu, M. R. ; Schadee, A.

In: Other Sources

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Publication Date: 2019-07-12

Description: This paper presents an analysis of high spatial resolution observations of 18 weak flares, carried out during the Solar Maximum Year in the microwave range, H-alpha, and soft X-rays, together with observations of the associated hard X-ray emission and the photospheric magnetic field. This combination of observations made it possible to obtain a picture of the flare geometry and the relative position of the various emissions, to study the change of the geometry during the flare, to estimate the electron temperature and emission measure of the thermal plasma, and to compute the contribution of the free-free process in the microwave emission. Results are interpreted as evidence for the presence of energetic electrons even in the post-burst phase of some flares. There was also found a clear case of homologous radio and X-ray bursts, one case of foot-point expansion with a relative velocity of 20 km/s at 6.16 cm, as well as some evidence of triggering of flares by disturbances moving with a velocity of 5000-13,000 km/s.

Keywords: SOLAR PHYSICS

Type: Astronomy and Astrophysics (ISSN 0004-6361); 195; 1-2

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