Probing the Flare Atmospheres of M dwarfs Using Infrared Emission Lines

Abstract

We present the results of a campaign to monitor active M dwarfs using infrared spectroscopy, supplemented with optical photometry and spectroscopy. We detected 16 flares during nearly 50 hours of observations on EV Lac, AD Leo, YZ CMi, and VB8. The three most energetic flares also showed infrared emission, including the first reported detections of Pβ, Pγ, He I 10830 and Brγ during an M dwarf flare. The strongest flare ( u = 4.02 on EV Lac) showed emission from Hγ, Hδ, He I 4471, and Ca II K in the UV/blue and Pβ, Pγ, Pδ, Brγ, and He I 10830 in the infrared. The weaker flares ( u = 1.68 on EV Lac and U = 1.38 on YZ CMi) were only observed with photometry and infrared spectroscopy; both showed emission from Pβ, Pγ, and He I 10830. The strongest infrared emission line, Pβ, occurred in the active mid-M dwarfs with a duty cycle of ~3-4%. To examine the most energetic flare, we used the static NLTE radiative transfer code RH to produce model spectra based on a suite of one-dimensional model atmospheres. Using a hotter chromosphere than previous one-dimensional atmospheric models, we obtain line ratios that match most of the observed emission lines.