Testing a scaling relation between coherent radio emission and physical parameters of hot magnetic stars

Das, Barnali ; Chandra, Poonam ; Shultz, Matt E ; Leto, Paolo ; Mikulášek, Zdeněk ; Petit, Véronique ; Wade, Gregg A. (2022) Testing a scaling relation between coherent radio emission and physical parameters of hot magnetic stars Monthly Notices of the Royal Astronomical Society . stac3123. ISSN 0035-8711

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Official URL: https://doi.org/10.1093/mnras/stac3123

Abstract

Coherent radio emission via electron cyclotron maser emission (ECME) from hot magnetic stars was discovered more than two decades ago, but the physical conditions that make the generation of ECME favourable remain uncertain. Only recently was an empirical relation, connecting ECME luminosity with the stellar magnetic field and temperature, proposed to explain what makes a hot magnetic star capable of producing ECME. This relation was, however, obtained with just fourteen stars. Therefore, it is important to examine whether this relation is robust. With the aim of testing the robustness, we conducted radio observations of five hot magnetic stars. This led to the discovery of three more stars producing ECME. We find that the proposed scaling relation remains valid after the addition of the newly discovered stars. However we discovered that the magnetic field and effective temperature correlate for Teff≲16 kK (likely an artifact of the small sample size), rendering the proposed connection between ECME luminosity and Teff unreliable. By examining the empirical relation in light of the scaling law for incoherent radio emission, we arrive at the conclusion that both types of emission are powered by the same magnetospheric phenomenon. Like the incoherent emission, coherent radio emission is indifferent to Teff for late-B and A-type stars, but Teff appears to become important for early-B type stars, possibly due to higher absorption, or, higher plasma density at the emission sites suppressing the production of the emission.

Item Type:Article
Source:Copyright of this article belongs to Oxford University Press.
Keywords:Astrophysics - Solar and Stellar Astrophysics
ID Code:128614
Deposited On:02 Nov 2022 03:48
Last Modified:10 Nov 2022 07:10

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