Discovery and origin of the radio emission from the multiple stellar system KQ Vel
Date Issued
2022
Author(s)
•
Oskinova, L M
•
•
Shultz, M E
•
•
•
•
Fossati, L
•
•
Krtička, J
•
Ignace, R
•
Bordiu, C
•
•
•
Cerrigone, L
•
Giarrusso, M
•
•
•
Owocki, S P
•
Postnov, K A
•
•
Robrade, J
•
Abstract
KQVel is a binary system composed of a slowly rotating magnetic Ap star with
a companion of unknown nature. In this paper, we report the detection of its
radio emission. We conducted a multi-frequency radio campaign using the ATCA
interferometer (band-names: 16cm, 4cm, and 15mm). The target was detected in
all bands. The most obvious explanation for the radio emission is that it
originates in the magnetosphere of the Ap star, but this is shown unfeasible.
The known stellar parameters of the Ap star enable us to exploit the scaling
relationship for non-thermal gyro-synchrotron emission from early-type magnetic
stars. This is a general relation demonstrating how radio emission from stars
with centrifugal magnetospheres is supported by rotation. Using KQVel's
parameters the predicted radio luminosity is more than five orders of
magnitudes lower than the measured one. The extremely long rotation period
rules out the Ap star as the source of the observed radio emission. Other
possible explanations for the radio emission from KQVel, involving its unknown
companion, have been explored. A scenario that matches the observed features
(i.e. radio luminosity and spectrum, correlation to X-rays) is a hierarchical
stellar system, where the possible companion of the magnetic star is a close
binary (possibly of RSCVn type) with at least one magnetically active late-type
star. To be compatible with the total mass of the system, the last scenario
places strong constraints on the orbital inclination of the KQVel stellar
system.
Volume
515
Issue
4
Start page
5523
Issn Identifier
0035-8711
Ads BibCode
2022MNRAS.515.5523L
Rights
open.access
File(s)![Thumbnail Image]()
Loading...
Name
stac2163.pdf
Description
Pdf editoriale
Size
2.15 MB
Format
Adobe PDF
Checksum (MD5)
1b4236adc62ae5350ed5b13122f2f808