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Reconstruction of magnetic field surges to the poles from sunspot impulses

Published online by Cambridge University Press:  05 July 2012

Nadezhda V. Zolotova
Affiliation:
Institute of Physics, St. Petersburg State University, Ulyanovskaya ul.1, Petrodvorets, St. Petersburg, Russia, 198504 email: [email protected]
Dmitri I. Ponyavin
Affiliation:
Institute of Physics, St. Petersburg State University, Ulyanovskaya ul.1, Petrodvorets, St. Petersburg, Russia, 198504 email: [email protected]
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Abstract

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The time-latitude diagram of the photospheric magnetic field of the Sun during 1975-2011 (Kitt Peak NSO, SOLIS NSO, SOHO MDI data) is analyzed using Gnevysvev's idea of impulsed structure of sunspot cycle and a flux transport concept. It is demonstrated that poleward migrations of magnetic trailing polarities are closely associated with the impulses of sunspot activity. We use a fitting procedure to reconstruct the sunspot impulses and poleward magnetic field surges. We compare our results for Cycle 22 model with the time-latitude diagram of the photospheric magnetic field of the Sun.

Type
Contributed Papers
Copyright
Copyright © International Astronomical Union 2012

References

Antalová, A. & Gnevyshev, M. N. 1983, Contributions of the Astronomical Observatory Skalnate Pleso, 11, 63Google Scholar
Baumann, I., Schmitt, D., Schüssler, M., & Solanki, S. K. 2004, A&A, 426, 1075Google Scholar
Gnevyshev, M. N. 1938, Izvestiya Glavnoj Astronomicheskoj Observatorii v Pulkove, 16, 36Google Scholar
Hathaway, D. H. & Rightmire, L. 2010, Science, 327, 1350CrossRefGoogle Scholar
Howard, R., LaBonte, B. J. 1981, Solar Phys., 74, 131CrossRefGoogle Scholar
Keller, C. U. & NSO Staff, 1998, in: Donahue, R. A. & Bookbinder, J. A. (eds.), Cool Stars, Stellar Systems and the Sun, Proceedings of Tenth Cambridge Workshop (San Francisco: ASP), p. 636Google Scholar
Leighton, R. B. 1964, ApJ, 140, 154CrossRefGoogle Scholar
Norton, A. A. & Gallagher, J. C. 2010, Solar Phys., 261, 193CrossRefGoogle Scholar
Scherrer, P. H., Bogart, R. S., Bush, R. I., Hoeksema, J. T., Kosovichev, A. G., Schou, J., Rosenberg, W., Springer, L., Tarbell, T. D., Title, A., Wolfson, C. J., & Zayer, I. (MDI Engineering Team), 1995, Solar Phys., 162, 129CrossRefGoogle Scholar
Temmer, M., Rybák, J., Bendík, P., Veronig, A., Vogler, F., Otruba, W., Pötzi, W., & Hanslmeier, A. 2006, A&A, 447, 735Google Scholar
Wang, Y.-M., Nash, A. G., & Sheeley, N. R. Jr. 1989, ApJ, 347, 529CrossRefGoogle Scholar
Zolotova, N. V. & Ponyavin, D. I. 2011a, ApJ, 736, 115CrossRefGoogle Scholar
Zolotova, N. V. & Ponyavin, D. I. 2011b, in: Choudhary, D. P. & Strassmeier, K. G., (eds.), The Physics of Sun and Star Spots, Proc. IAU Symposium No. 273 (Cambridge University Press), p. 169Google Scholar
Zolotova, N. V. & Ponyavin, D. I. 2012, Astron. Rep., 56, 250.CrossRefGoogle Scholar