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Article overview
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Does the Sun Shrink with Increasing Magnetic Activity? | W. A. Dziembowski
; P. R. Goode
; J. Schou
; | Date: |
26 Dec 2000 | Subject: | astro-ph | Affiliation: | 1,2), P. R. Goode , and J. Schou ( Warsaw University Observatory and Copernicus Astronomical Center, Big Bear Solar Observatory, W.W.Hansen Experimental Physics Laboratory | Abstract: | We have analyzed the full set of SOHO/MDI f- and p-mode oscillation frequencies from 1996 to date in a search for evidence of solar radius evolution during the rising phase of the current activity cycle. Like Antia et al. (2000), we find that a significant fraction of the f-mode frequency changes scale with frequency; and that if these are interpreted in terms of a radius change, it implies a shrinking sun. Our inferred rate of shrinkage is about 1.5 km/y, which is somewhat smaller than found by Antia et al. We argue that this rate does not refer to the surface, but rather to a layer extending roughly from 4 to 8 Mm beneath the visible surface. The rate of shrinking may be accounted for by an increasing radial component of the rms random magnetic field at a rate that depends on its radial distribution. If it were uniform, the required field would be ~7 kG. However, if it were inwardly increasing, then a 1 kG field at 8 Mm would suffice. To assess contribution to the solar radius change arising above 4Mm, we analyzed the p-mode data. The evolution of the p-mode frequencies may be explained by a magnetic^M field growing with activity. The implications of the near-surface magnetic field changes depend on the anisotropy of the random magnetic field. If the field change is predominantly radial, then we infer an additional shrinking at a rate between 1.1-1.3 km/y at the photosphere. If on the other hand the increase is isotropic, we find a competing expansion at a rate of 2.3 km/y. In any case, variations in the sun’s radius in the activity cycle are at the level of 10^{-5} or less, hence have a negligible contribution to the irradiance variations. | Source: | arXiv, astro-ph/0101473 | Services: | Forum | Review | PDF | Favorites |
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