Hinode observations of a vector magnetic field change associated with a flare on 2006 December 13

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Abstract

Continuous observations of the flare productive active region 10930 were successfully carried out with the Solar Optical Telescope aboard the Hinode spacecraft during 2006 December 6 to 19. We focused on the evolution of photospheric magnetic fields in this active region, and the magnetic field properties at the site of the X3.4 class flare, using a time series of vector field maps with high spatial resolution. The X3.4 class flare occurred on 2006 December 13 at the apparent collision site between the large, opposite polarity umbrae. Elongated magnetic structures with alternatingly positive and negative polarities resulting from flux emergence appeared one day before the flare in the collision site penumbra. Subsequently, the polarity inversion line at the collision site became very complicated. The number of bright loops in Ca II H increased during the formation of these elongated magnetic structures. Flare ribbons and bright loops evolved along the polarity inversion line and one footpoint of the bright loop was located in a region having a large departure of the field azimuth angle with respect to its surroundings. SOT observations with high spatial resolution and high polarization precision revealed temporal change in the fine structure of magnetic fields at the flare site: some parts of the complicated polarity inversion line then disappeared, and in those regions the azimuth angle of the photospheric magnetic field changed by about 90°, becoming more spatially uniform within the collision site. © 2007. Astronomical Society of Japan.

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Kubo, M., Yokoyama, T., Katsukawa, Y., Lites, B., Tsuneta, S., Suematsu, Y., … Elmore, D. (2007). Hinode observations of a vector magnetic field change associated with a flare on 2006 December 13. Publications of the Astronomical Society of Japan, 59(SPEC. ISS. 3). https://doi.org/10.1093/pasj/59.sp3.s779

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