Radio Emission from a Nearby M dwarf Binary

Abstract

We present the detection of the binary system 2MASS J02132062+3648506 AB using the Karl G. Jansky Very Large Array (VLA) archive data observed at 4-8 GHz. The system is a triple consisting of a tight binary (0.2") of two M dwarfs of spectral class M4.5 and M6.5 and a wide T3 brown dwarf companion (16.4"). The binary displays coronal and chromospheric activity as traced by previously measured X-ray flux and Hα emission. We detect the unresolved binary at a peak flux density of 356\ μ Jybeam-1 at a signal-to-noise ratio (SNR) of 36 and determine a radio luminosity of logLR/logLbol≈-7.76. The radio emission is quiescent, polarised at a mean circular polarisation fraction fc=45.20 1.58 % and exhibits a spectral index α=-0.440.07 . We probe the binary using the Enhanced Multi-Element Remotely Linked Interferometer Network (e-MERLIN) with an angular resolution of 40 mas at 5 GHz and detect a component at a peak flux density of 90\ μJy beam-1 at a SNR 5 . We propose a gyrosynchrotron origin for the radio emission and estimate a magnetic field strength B<174.86 G, an emitting region of size L<1.54 times the radius of the M4.5 primary and a plasma number density ne<2.91×105\ cm-3. The brown dwarf companion is not detected. Additionally, we have analysed observations of 2MASS J04183483+213127, a chromospherically active L5 brown dwarf which is also not detected. Accordingly, we place 3σ flux density upper limits at 36.9\ μJy beam-1 and 42.3\ μJy beam-1 for Stokes I and V respectively.