Astronomy and Astrophysics – Astrophysics
Scientific paper
Jun 2007
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=2007a%26a...468.1083y&link_type=abstract
Astronomy and Astrophysics, Volume 468, Issue 3, June IV 2007, pp.1083-1088
Astronomy and Astrophysics
Astrophysics
14
Sun: Sunspots, Sun: Flares, Sun: Magnetic Fields
Scientific paper
Context: Active region NOAA 10424 observed on August 5, 2003 is studied in detail by using TRACE, SOHO/MDI, BBSO Hα monograph, and GOES data. This investigation focuses on the sunspot rotation and its relation with the eruptive phenomena by analyzing the magnetic configuration that the rotation results in. Aims: It is shown that there is a close relationship between the sunspot rotation and the emerging kinked magnetic Ω-loops, where the flares occur. Methods: Through tracing the traceable features motion by using the TRACE white-light images, one can get the rotation velocities of the umbra, the penumbra, the area near the penumbra, and the area far from the penumbra. Furthermore, the evolution of the emerging kinked magnetic Ω-loops and magnetic fields were studied. Results: For the sunspot with positive polarity, the umbra, the penumbra, and the area near the penumbra exhibit a conspicuous counterclockwise rotation. Moreover, the velocities decrease from the umbra through the penumbra to the area near the penumbra. It is interesting that the rotation of the umbra, the penumbra, and the area near the penumbra are opposite to that of the area far from penumbra. The rotation velocities of the umbra, the penumbra, polarity separation, and total magnetic flux increase with time. During the largest event (M1.7/Sn flare), emerging kinked magnetic Ω-loops are observed from TRACE 171 Å images. Conclusions: The different rotation speeds of the different parts of the sunspot cause twist, and then the twist is injected through the chromosphere into the corona to trigger the flares.
Qu Zhong-Quan
Yan Xiao-Li
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