A star under multiple influences

Kővári, Zs.; Strassmeier, K. G.; Kriskovics, L.; Oláh, K.; Borkovits, T.; Radványi, Á.; Granzer, T.; Seli, B.; Vida, K.; Weber, M.

doi:10.1051/0004-6361/202348324

A&A

2024

DOI: 10.1051/0004-6361/202348324

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A star under multiple influences

Zs. Kővári,

K. G. Strassmeier,

L. Kriskovics

et al.

Abstract: Close binaries with magnetically active components are astrophysical laboratories for studying the effects of binarity on activity. Of particular interest are binary and multiple star systems that contain a solar-type active component with an internal structure similar to the Sun, allowing us to study how the dynamo of a solar-type star would work under different conditions. We have conducted a comprehensive investigation of V815\,Her using photometric and spectroscopic data to understand the origin of the act… Show more

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Demography of Stellar Radio Population within 500 pc: A VLASS-Gaia DR3 Study

Ayanabha,

Narang,

Puravankara

et al. 2024

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In this work, we have carried out a systematic analysis of the Very Large Array Sky Survey (VLASS) quick look catalogs together with Gaia DR3 to identify the optical counterparts of 3 GHz radio emitters within 500 pc to obtain a homogeneous statistical sample of stellar radio sources. We have identified distinct populations of 3 GHz emitters across the Gaia DR3 color–magnitude diagram. We also present candidate sources (transient, highly variable, or background artifacts) that can be confirmed by follow-up observations. A majority of the detected sources constitute main-sequence G-, K-, and M-type stars, including ultracool dwarfs. Pinning down the origin of radio emission from these populations can help us gain further insights into the origin of stellar and planetary magnetic fields. By analyzing the variation of brightness temperature of the sources with their spectral type, we have tentatively associated possible emission mechanisms with different object types. We inspected the correlation between quiescent radio and X-ray emission for our sample, which can provide crucial insights into the current understanding of the Gudel–Benz relationship, which is essential for modeling steady radio emission and coronal heating. This VLASS-Gaia DR3 analysis acts as a pilot study for follow-up observations at multiple wavelengths to better understand stellar structure, model flaring activities, and detect radio emission caused by star–planet interactions.

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Demography of Stellar Radio Population within 500 pc: A VLASS-Gaia DR3 Study

Ayanabha,

Narang,

Puravankara

et al. 2024

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show abstract

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A star under multiple influences

Cited by 1 publication

References 90 publications

Demography of Stellar Radio Population within 500 pc: A VLASS-Gaia DR3 Study

Demography of Stellar Radio Population within 500 pc: A VLASS-Gaia DR3 Study

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