The change of magnetic inclination angles associated with the X3.4 flare on December 13, 2006

Wang H, Spirock T J, Qiu J, et al. Rapid changes of magnetic fields associated with six X-class flares. Astrophys J, 2002, 576: 497–504

Sudol J J, Harvey J W. Longitudinal magnetic field changes accompanying solar flares. Astrophys J, 2005, 635: 647–658

Wiegelmann T. Nonlinear force-free modeling of the solar coronal magnetic field. J Geophys Res, 2008, 113: A03S02

Jing J, Wiegelmann T, Suematsu Y, et al. Changes of magnetic structure in three dimensions associated with the X3.4 Flare of 2006 December 13. Astrophys J, 2008, 676: L81–L84

Wang H, Liu C, Qiu J, et al. Rapid penumbral decay following three X-class solar flares. Astrophys J, 2004, 601: L195–L198

Deng N, Liu C, Yang G, et al. Rapid penumbral decay associated with an X2.3 Flare in NOAA active region 9026. Astrophys J, 2005, 623: 1195–1201

Liu C, Deng N, Liu Y, et al. Rapid change of δ spot structure associated with seven major flares. Astrophys J, 2005, 622: 722–736

Chen W, Liu C, Song H, et al. Statistical study of rapid sunspot structure change associated with flares. Chin J Astron Astrophys, 2007, 7: 733–742

Kosugi T, et al. The hinode (solar-B) mission: An overview. Sol Phys, 2007, 243: 3–17

Tsuneta S, et al. The solar optical telescope for the hinode mission: An overview. Sol Phys, 2008, 249: 167–196

Kubo M, Lites B W, Shimizu T, et al. Magnetic flux loss and flux transport in a decaying active region. Astrophys J, 2008, 686: 1447–1453

Metcalf T R. Resolving the 180-degree ambiguity in vector magnetic field measurements: The “minimum” energy solution. Sol Phys, 1994, 155: 235–242