Please use this identifier to cite or link to this item: http://hdl.handle.net/2248/2695
Title: Energy transport to the solar corona by magnetic kink waves
Authors: Choudhuri, A. R
Dikpati, M
Banerjee, D
Keywords: Magnetic flux
Magnetohydrodynamic waves
Solar corona
Stellar temperature
Wave propagation
Energy transfer
Kinetic energy
Solar atmosphere
Stellar models
Issue Date: 20-Aug-1993
Publisher: American Astronomical Society
Citation: Astrophysical Journal , Vol. 413, No. 2, part 1, pp. 811 - 825
Abstract: We show that the magnetic kink waves generated by the motions of photospheric footpoints of the coronal flux tubes can supply adequate energy for heating the quiet corona, provided there are occasional rapid motions of these footpoints as found in recent observations. Choudhuri et al. (1992) modeled the solar corona as isothermal atmosphere and showed that these rapid motions are much more efficient for transporting energy compared to the slow footpoint motions taking place most of the time. We extend these calculations for a two-layer atmosphere, with the lower layer having chromospheric thickness and temperature, and the upper layer having coronal temperature. Even in the presence of such a temperature jump we find that the rapid footpoint motions are still much more efficient for transporting energy to the corona and the estimated energy flux is sufficient for quiet coronal heating. We discuss the general problem of the propagation of kink pulses in a two-layer atmosphere for different possible values of the basic parameters. We find a fairly complicated behavior which could not be anticipated from the analysis of a pure Fourier mode.
URI: http://hdl.handle.net/2248/2695
ISSN: 0004-637X
Appears in Collections:IIAP Publications

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