2022A&A...660A..65C -
Astronomy and Astrophysics, volume 660A, 65-65 (2022/4-1)
Radio emission in a nearby, ultra-cool dwarf binary: A multifrequency study.
CLIMENT J.B., GUIRADO J.C., ZAPATERO OSORIO M.R., ZAKHOZHAY O.V., PEREZ-TORRES M., AZULAY R., GAUZA B., REBOLO R., BEJAR V.J.S., MARTIN-PINTADO J. and LEFEVRE C.
Abstract (from CDS):
Context. The substellar triple system VHS J125601.92-125723.9 (hereafter VHS 1256-1257) is composed of an equal-mass M7.5 brown dwarf binary and an L7 low-mass substellar object. In Guirado et al. (
2018A&A...610A..23G) we published the detection of radio emission at 8.4 GHz coming from the central binary and making it an excellent target for further observations.
Aims. We aim to identify the origin of the radio emission occurring in the central binary of VHS 1256-1257 while discussing the expected mechanisms involved in the radio emission of ultra-cool dwarfs.
Methods. We observed this system with the Karl G. Jansky Very Large Array, the European very-long-baseline interferometry (VLBI) Network, the enhanced Multi-Element Remotely Linked Interferometer Network, the NOrthern Extended Millimeter Array, and the Atacama Large Millimetre Array at frequencies ranging from 5 GHz up to 345 GHz in several epochs during 2017, 2018, and 2019.
Results. We found radio emission at 6 GHz and 33 GHz coincident with the expected position of the central binary of VHS 1256-1257. The Stokes I density fluxes detected were 73 ± 4 µJy and 83 ± 13 µJy, respectively, with no detectable circular polarisation or pulses. No emission is detected at higher frequencies (230 GHz and 345 GHz), nor at 5 GHz with VLBI arrays. The emission appears to be stable over almost three years at 6 GHz. To explain the constraints obtained both from the detections and non-detections, we considered multiple scenarios including thermal and nonthermal emission, and different contributions from each component of the binary.
Conclusions. Our results can be well explained by nonthermal gyrosynchrotron emission originating at radiation belts with a low plasma density (n
e = 300-700 cm
–3), a moderate magnetic field strength (B ≃ 140 G), and an energy distribution of electrons following a power-law (dN/dE ∝ E
–δ) with δ fixed at 1.36. These radiation belts would need to be present in both components and also be viewed equatorially.
Abstract Copyright:
© ESO 2022
Journal keyword(s):
brown dwarfs - radio continuum: stars - submillimeter: stars - radiation mechanisms: general - magnetic fields - techniques: interferometric
Simbad objects:
15
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