DEPENDENCE of STELLAR MAGNETIC ACTIVITY CYCLES on ROTATIONAL PERIOD in A NONLINEAR SOLAR-TYPE DYNAMO
Document Type
Article
Publication Date
6-1-2016
Abstract
We study the turbulent generation of large-scale magnetic fields using nonlinear dynamo models for solar-type stars in the range of rotational periods from 14 to 30 days. Our models take into account nonlinear effects of dynamical quenching of magnetic helicity, and escape of magnetic field from the dynamo region due to magnetic buoyancy. The results show that the observed correlation between the period of rotation and the duration of activity cycles can be explained in the framework of a distributed dynamo model with a dynamical magnetic feedback acting on the turbulent generation from either magnetic buoyancy or magnetic helicity. We discuss implications of our findings for the understanding of dynamo processes operating in solar-like stars.
Identifier
84975078706 (Scopus)
Publication Title
Astrophysical Journal
External Full Text Location
https://doi.org/10.3847/0004-637X/823/2/133
e-ISSN
15384357
ISSN
0004637X
Issue
2
Volume
823
Recommended Citation
Pipin, V. V. and Kosovichev, A. G., "DEPENDENCE of STELLAR MAGNETIC ACTIVITY CYCLES on ROTATIONAL PERIOD in A NONLINEAR SOLAR-TYPE DYNAMO" (2016). Faculty Publications. 10468.
https://digitalcommons.njit.edu/fac_pubs/10468
