Role of Nonthermal Processes in the Quiescent and Active Millimeter Spectrum of a Young M Dwarf

Role of Nonthermal Processes in the Quiescent and Active Millimeter Spectrum of a Young M Dwarf

Millimeter (mm) emission from F-M dwarfs (cool stars) primarily traces chromospheric activity, with thermal emission thought to dominate in quiescence. Despite the high chromospheric activity, the quiescent mm spectral fluence (mm- S ( ν )) of young (<1 Gyr) M dwarfs (dMs) remains largely unexplo...

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Bibliographic Details
Main Authors: Atul Mohan, Peter H. Hauschildt, Birgit Fuhrmeister, Surajit Mondal, Vladimir Airapetian, Sven Wedemeyer
Format: Article
Language:English
Published: IOP Publishing 2025-01-01
Series:The Astrophysical Journal
Subjects:
Red dwarf flare stars
Stellar activity
Millimeter astronomy
Stellar chromospheres
Stellar coronae
Stellar atmospheres
Online Access:https://doi.org/10.3847/1538-4357/ade9bf
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Summary:Millimeter (mm) emission from F-M dwarfs (cool stars) primarily traces chromospheric activity, with thermal emission thought to dominate in quiescence. Despite the high chromospheric activity, the quiescent mm spectral fluence (mm- S ( ν )) of young (<1 Gyr) M dwarfs (dMs) remains largely unexplored. We present the quiescent mm- S ( ν ) of a young dM, AD Leo, observed around 94 GHz using the Northern Extended Millimetre Array. The observed quiescent mm- S ( ν ) exceeds the thermal flux density from a 1D chromospheric model, constrained by optical-UV spectroscopic data, by up to a factor of 7. This indicates a quasi-steady nonthermal emission powered by suprathermal electrons, unlike in old (>1 Gyr) cool stars, whose quiescent mm- S ( ν ) generally agree with 1D thermal models. The mm-brightness temperature spectral index ( α _mm ; T _B ( ν ) $\,\sim \,{\nu }^{-{\alpha }_{{\rm{mm}}}}$ ) of AD Leo deviates by a factor of 3 from the α _mm – T _eff scaling law for old Sun-like stars (A. Mohan et al. 2022 ), while UV Ceti, an older M6V star, follows the trend. Also, we report a double-hump flare with second-scale variability in flux density and spectral index, and a frequency-rising nature with brightness increasing with frequency. The flare resembles certain solar events, but is unlike the second-scale events reported in dMs. The nonthermal flare humps suggest multiple injections of accelerated electrons. The mean flare luminosity (∼2–5 × 10 ^15 erg s ^−1 Hz ^−1 ) and duration (18 ± 2 s) are comparable to flares reported in AU Mic and Proxima Cen, but 100–1000 times weaker than the minutes-long dM flares observed by the South Pole Telescope.
ISSN:1538-4357

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