English

Stellar Magnetic Dynamos and Activity Cycles

Solar and Stellar Astrophysics 2015-06-17 v1

Abstract

Using a new uniform sample of 824 solar and late-type stars with measured X-ray luminosities and rotation periods we have studied the relationship between rotation and stellar activity that is believed to be a probe of the underlying stellar dynamo. Using an unbiased subset of the sample we calculate the power law slope of the unsaturated regime of the activity -- rotation relationship as LX/LbolRoβL_X/L_{bol}\propto Ro^\beta, where β=2.70±0.13\beta=-2.70\pm0.13. This is inconsistent with the canonical β=2\beta = -2 slope to a confidence of 5σ\sigma and argues for an interface-type dynamo. We map out three regimes of coronal emission as a function of stellar mass and age, using the empirical saturation threshold and theoretical super-saturation thresholds. We find that the empirical saturation timescale is well correlated with the time at which stars transition from the rapidly rotating convective sequence to the slowly rotating interface sequence in stellar spin-down models. This may be hinting at fundamental changes in the underlying stellar dynamo or internal structure. We also present the first discovery of an X-ray unsaturated, fully convective M star, which may be hinting at an underlying rotation - activity relationship in fully convective stars hitherto not observed. Finally we present early results from a blind search for stellar X-ray cycles that can place valuable constraints on the underlying ubiquity of solar-like activity cycles.

Keywords

Cite

@article{arxiv.1309.6970,
  title  = {Stellar Magnetic Dynamos and Activity Cycles},
  author = {Nicholas J. Wright},
  journal= {arXiv preprint arXiv:1309.6970},
  year   = {2015}
}

Comments

4 pages, 2 figures, proceedings for IAU Symposium 302: Magnetic Fields Throughout Stellar Evolution

R2 v1 2026-06-22T01:34:52.644Z