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Title Radio emission from colliding outflows in high-mass X-ray binaries with strongly magnetized neutron stars
Author Χατζής, Μαργαρίτης
Thesis advisor Κυλάφης, Νικόλαος
Abstract We present a toy model for radio emission in high-mass X-ray binaries (HMXBs) with strongly magnetized neutron stars (NSs) where a wind-collision region is formed by the NS outflow and the stellar wind of the massive companion. Radio emission is expected from the synchrotron radiation of shock-accelerated electrons and the free–free emission of the stellar wind. We found that the predicted relation between the GHz luminosity (LR) and the accretion X-ray luminosity (LX) can be written as LR ∝ LbX for most parameters. No correlation with X-rays is expected (b = 0) when the thermal emission of the stellar wind dominates in radio. We typically find a steep correlation (b = 12/7) for sub-Eddington X-ray luminosities and a more shallow one [b = 2(p − 1)/7] for super-Eddington X-ray luminosities, where p is the power-law index of accelerated electrons. The maximum predicted radio luminosity is independent of the NS properties, while it depends on the stellar wind momentum, binary separation distance, and the minimum electron Lorentz factor. Using a Bayesian approach, we modelled the radio observations of Swift J0243.6+6124 that cover a wide range of mass accretion rates. Our results support a shock origin for the radio detections at sub-Eddington X-ray luminosities. However, no physically meaningful parameters could be found for the super-Eddington phase of the outburst, suggesting a different origin. Future observations with more sensitive instruments might reveal a large number of HMXBs with strongly magnetized NSs in radio, allowing the determination of the slope in the LR–LX relation, and putting the wind-collision scenario into test.
Language English
Subject Binaries – radiation mechanism
Neutron – X-rays
Non-thermal
Stars
Thermal
Issue date 2022-07-22
Collection   School/Department--School of Sciences and Engineering--Department of Physics--Graduate theses
  Type of Work--Graduate theses
Permanent Link https://elocus.lib.uoc.gr//dlib/a/3/c/metadata-dlib-1654592961-113624-11617.tkl Bookmark and Share
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