On a mechanism for enhancing magnetic activity in tidally interacting
  binaries

Belvedere G.; Biront D.; Cowling T. G.; Cowling T. G.; de Medeiros J. R.; Donati J. F.; G. Belvedere; G. Javakhishvili; Glebocki R.; Habets G. M. H. J.; Hut P.; Markey P.; Piddington J. H.; Roberts P. H.; Rutten R. G. M.; Savonije G. J.; Schrijver C. J.; Smeyers P.; Spruit H. C.; T. Zaqarashvili; Tayler R. J.; Tayler R. J.; Walen C.; Wright G. A. E.; Zahn J. P.; Zahn J. P.

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On a mechanism for enhancing magnetic activity in tidally interacting binaries

Authors: Belvedere G.
Biront D.
Cowling T. G.
Cowling T. G.
de Medeiros J. R.
Donati J. F.
G. Belvedere
G. Javakhishvili
Glebocki R.
Habets G. M. H. J.
Hut P.
Markey P.
Piddington J. H.
Roberts P. H.
Rutten R. G. M.
Savonije G. J.
Schrijver C. J.
Smeyers P.
Spruit H. C.
T. Zaqarashvili
Tayler R. J.
Tayler R. J.
Walen C.
Wright G. A. E.
Zahn J. P.
Zahn J. P.
Publication date: 10 October 2002
Publisher: 'University of Chicago Press'
Doi

Abstract

We suggest a mechanism for enhancing magnetic activity in tidally interacting binaries. We suppose that the deviation of the primary star from spherical symmetry due to the tidal influence of the companion leads to stellar pulsation in its fundamental mode. It is shown that stellar radial pulsation amplifies torsional Alfv{\'e}n waves in a dipole-like magnetic field, buried in the interior, according to the recently proposed swing wave-wave interaction (Zaqarashvili 2001). Then amplified Alfv{\'e}n waves lead to the onset of large-scale torsional oscillations, and magnetic flux tubes arising towards the surface owing to magnetic buoyancy diffuse into the atmosphere producing enhanced chromospheric and coronal emission.Comment: Accepted in Ap

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