Astronomy and Astrophysics – Astronomy
Scientific paper
Apr 2011
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=2011pasj...63..417m&link_type=abstract
Publications of the Astronomical Society of Japan, Vol.63, No.2, pp.417-426
Astronomy and Astrophysics
Astronomy
3
Methods: Numerical, Mhd, Sun: Filaments, Sun: Magnetic Fields
Scientific paper
We have used a 3-dimensional MHD simulation to investigate a dynamic process producing flux cancellation on the solar surface. Our calculations are fully self-consistent in that any prescribed dynamic process is not applied on the surface, which is self-consistently generated via the emergence of a twisted flux tube. Most of the flux that emerges below the surface is in the form of Ω-loops (concave-down geometry), so that dense photospheric plasma can drain down along the legs of the loop as it rises into the corona. We have found, however, that some U-loops (concave-up geometry) can also emerge. A U-loop geometry implies that a field line has a dip below the surface and a local peak somewhere above the surface on either side of the dip. Although the emergence of U-loops can produce flux cancellation on the surface, loops with such a geometry are not expected to emerge easily, due to the trapping of dense plasma in the dipped portion of the loops. Our results indicate that if one of the peaks is sufficiently low, on the order of the photospheric gravitational scale height above the surface, plasma can drain out of the dipped portion by a siphon-like mechanism, allowing the U-part of the loops to emerge, and resulting in cancellation of the magnetic flux on the surface. However, if both peaks of a U-loop are high compared to the photospheric scale height, dense plasma simply settles in the dip of the loop, preventing the U-part from emerging, rather producing reconnection, which is another possible mechanism of flux cancellation. We also discuss the implications of our results for observations.
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