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Long-Term Changes in the Solar Photosphere Associated with Changes in the Coronal Source Flux

Long-Term Changes in the Solar Photosphere Associated with Changes in the Coronal Source Flux
Long-Term Changes in the Solar Photosphere Associated with Changes in the Coronal Source Flux
Using sunspot observations from Greenwich and Mount Wilson, we show that the latitudinal spread of sunspot groups has increased since 1874, in a manner that closely mirrors the long-term (?100 year) changes in the coronal source flux, Fs, as inferred from geomagnetic activity. This latitude spread is shown to be well correlated with the flux emergence rate required by the model of the coronal source flux variation by Solanki et al. [2000]. The time constant for the decay of this open flux is found to be 3.6±0.8 years. Using this value, and quantifying the photospheric flux emergence rate using the latitudinal spread of sunspot groups, the model reproduces the observed coronal source flux variation. The ratio of the 100-year drift to the solar cycle amplitude for the flux emergence rate is found to be half of the same ratio for Fs.
0094-8276
1443-1446
Foster, S.
9640e31f-1e94-4a78-a29c-a0a2b2158b1b
Lockwood, M.
32917473-f7d9-4773-9162-6509baad09fa
Foster, S.
9640e31f-1e94-4a78-a29c-a0a2b2158b1b
Lockwood, M.
32917473-f7d9-4773-9162-6509baad09fa

Foster, S. and Lockwood, M. (2001) Long-Term Changes in the Solar Photosphere Associated with Changes in the Coronal Source Flux. Geophysical Research Letters, 28, 1443-1446. (doi:10.1029/2000GL011995).

Record type: Article

Abstract

Using sunspot observations from Greenwich and Mount Wilson, we show that the latitudinal spread of sunspot groups has increased since 1874, in a manner that closely mirrors the long-term (?100 year) changes in the coronal source flux, Fs, as inferred from geomagnetic activity. This latitude spread is shown to be well correlated with the flux emergence rate required by the model of the coronal source flux variation by Solanki et al. [2000]. The time constant for the decay of this open flux is found to be 3.6±0.8 years. Using this value, and quantifying the photospheric flux emergence rate using the latitudinal spread of sunspot groups, the model reproduces the observed coronal source flux variation. The ratio of the 100-year drift to the solar cycle amplitude for the flux emergence rate is found to be half of the same ratio for Fs.

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Published date: 2001

Identifiers

Local EPrints ID: 9154
URI: http://eprints.soton.ac.uk/id/eprint/9154
DOI: doi:10.1029/2000GL011995
ISSN: 0094-8276
PURE UUID: fdf6f20e-fc2f-45a3-bd94-5fce1e5cc61f

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Date deposited: 24 Sep 2004
Last modified: 15 Mar 2024 04:55

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Contributors

Author: S. Foster
Author: M. Lockwood

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