Derivation of the Spiral Motion of an Eruptive Prominence and Its Explanation

A 2D velocity field of the eruptive prominence (EP) of 1991 March 5 is obtained from its spectral data observed at the Yunnan Observatory and the velocity distributions along the entrance slit are derived for different observing frames. Under the assumption that matter in the EP undergoes axial, rad...

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Bibliographic Details
Published in:Chinese journal of astronomy and astrophysics 2006-10, Vol.6 (5), p.617-624
Main Authors: Gu, Xiao-Ma, Zhong, Shu-Hua, Liang, Hong-Fei, Zhan, La-Sheng
Format: Article
Language:English
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Summary:A 2D velocity field of the eruptive prominence (EP) of 1991 March 5 is obtained from its spectral data observed at the Yunnan Observatory and the velocity distributions along the entrance slit are derived for different observing frames. Under the assumption that matter in the EP undergoes axial, radial and possible rotational motions, we construct a theoretical velocity distribution of the EP along the entrance slit, to derive, by fitting, the angular velocity of rotation omega and the other three parameters (axial velocity v0, radial velocity vr and the angle between the EP plane and the line of sight ). We found: an averaged angular velocity omega of 3.0X10-3 arc s-1 and the variation of omega with the height above the solar limb. As the EP rises, the matter within it in fact moves along a spiral path around its axis. The spiral motion may be explained by the theory of plasma `double pole diffusion' (DPD) caused by a sharp density gradient between the eruptive prominence and the surrounding corona. A theoretical angular velocity omega ' is estimated based on the DPD and basically coincides with omega obtained from the optimal velocity fitting.
ISSN:1009-9271
DOI:10.1088/1009-9271/6/5/14