论文信息 - A quantitative study relating observed shear in photospheric magnetic fields to repeated flaring

A quantitative study relating observed shear in photospheric magnetic fields to repeated flaring

In this paper we present a quantitative evaluation of the shear in the magnetic field along the neutral line in an active region during an epoch of flare activity. We define shear as the angular difference in the photosphere between the potential magnetic field, which fits the boundary conditions imposed by the observed line-of-sight field, and the observed magnetic field. For the active region studied, this angular difference (shear) is non-uniform along the neutral line with maxima occurring at the locations of repeated flare onsets. We suggest that continued magnetic evolution causes the field's maximum shear to exceed a critical value of shear, resulting in a flare around the site of maximum shear. Evidently, the field at the site of the flare must relax to a state of shear somewhat below the critical value (but still far from potential), with subsequent evolution returning the field to the critical threshold. We draw this inference because several flares occurred at sites of maximum photospheric shear which were persistent in location.

[1] B. Low. Evolving force-free magnetic fields. I - The development of the preflare stage , 1977 .

[2] D. Neidig. High resolution observations of fibril changes in a small flare , 1979 .

[3] M. Hagyard,et al. Vector magnetic field evolution, energy storage, and associated photospheric velocity shear within a flare-productive active region , 1982 .

[4] B. Somov,et al. The flares of April 1980 , 1983 .

[5] L. Cram,et al. The physics of sunspots, Sunspot, New Mexico, 14-17 July 1981 : proceedings , 1981 .

[6] J. Birn,et al. A theory of the onset of solar eruptive processes , 1978 .

[7] H. Zirin,et al. The flares of August 1972 , 1973 .

[8] J. Imhof,et al. Hard X-ray imaging of two flares in active region 2372 , 1981 .

[9] Edward A. West,et al. The MSFC vector magnetograph , 1982 .

[10] P. Foukal. Morphological relationships in the chromospheric Hα fine structure , 1971 .

[11] E. Tandberg-Hanssen,et al. Computer solutions for studying correlations between solar magnetic fields and skylab X-ray observations , 1977 .

[12] S. Wu,et al. Modeling of energy buildup for a flare-productive region , 1981 .