Journal Articles Solar Physics Year : 2010

Slow and Fast Rotating Coronal Holes from Geomagnetic Indices

Abstract

The evolution of the 27-day recurrence in the series of two solar indices (Wolf number WN and 10.7 cm radio flux F) and two geomagnetic indices ( Dst and ζ, variance of the geomagnetic field recorded at a magnetic observatory) have been studied over the 1957 - 2007 time span. Spectral energies contained in two period domains (25 - 27.3 and 27.3 - 31 days), designated as E 1 and E 2, have been computed. Whereas the evolution of E 1 is the same for the four indices, that of E 2 is essentially different for WN and F on the one hand, Dst and ζ on the other hand. Some general conclusions on the dynamics of the solar outer layers are inferred from these results. First the solar activity, as measured by WN, and when averaged over a few years, evolves in the same way whatever the latitude. Second, two families of coronal holes (CHs) are identified; the rapidly and the slowly rotating CHs evolve quite differently.

Dates and versions

insu-03605283 , version 1 (11-03-2022)

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Mikhail G. Shnirman, Jean-Louis Le Mouël, Elena M. Blanter. Slow and Fast Rotating Coronal Holes from Geomagnetic Indices. Solar Physics, 2010, 266, pp.159-171. ⟨10.1007/s11207-010-9605-5⟩. ⟨insu-03605283⟩
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