The effects of viewing angle on the inference of magnetic shear in preflare active regions |
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| Authors: | Ladye Kathryn Wilkinson A Gordon Emslie G Allen Gary |
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| Institution: | (1) Department of Physics, UAH, 35899 Huntsville, AL, USA;(2) Space Science Laboratory, NASA Marshall Space Flight Center, Code ES52, 35812 Huntsville, AL, USA |
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| Abstract: | The magnetic shear at a point within an active region field configuration can be defined (Hagyard et al., 1984b) as the difference in angle between the observed photospheric transverse field and that of a reference potential field calculated using the observed line-of-sight field as a boundary condition. Using analytic models for non-potential (but force-free) fields representative of preflaring active regions, we calculate the degree of magnetic shear along the magnetic neutral line that such fields would exhibit, as a function of the location and orientation of the active region on the solar disk. We find that, except for regions close to disk center, the position of the inferred neutral line (zero line-of-sight field) is significantly different from the actual neutral line (zero radial field), and that the calculated reference potential field also varies significantly with the position of the region. Thus the inferred degree of shear can vary significantly with the position and orientation of the region, due to (a) straightforward geometric projection effects, (b) the shift of the inferred neutral line relative to its true position, and (c) variations in the reference potential field. The significance of these results for flare prediction is considered.Presidential Young Investigator. |
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