Keaton J. Bell, Eric J. Hilton, James R. A. Davenport, Suzanne L. Hawley, Andrew A. West, Allen B. Rogel
We use ~12,000 spectra of ~3,500 magnetically active M0-M9 dwarfs from the
Sloan Digital Sky Survey taken at 10-15 minute intervals, together with ~300
spectra of ~60 M0-M8 stars obtained hourly with the Hydra multi-object
spectrometer, to probe H\alpha\ variability on timescales of minutes to weeks.
With multiple observations for every star examined, we are able to characterize
fluctuations in H\alpha emission as a function of activity strength and
spectral type. Stars with greater magnetic activity (as quantified by
L_H\alpha/L_bol) are found to be less variable at all spectral types. We
attribute this result to the stronger level of persistent emission in the high
activity stars, requiring a larger heating event in order to produce measurable
variability. We also construct H\alpha\ structure functions to constrain the
timescale of variability. The more active objects with lower variability
exhibit a characteristic timescale longer than an hour, likely due to larger,
longer lasting heating events, while the less active objects with higher
variability have a characteristic timescale shorter than 15 minutes.
View original:
http://arxiv.org/abs/1112.1411
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