Disc precession in Be/X-ray binaries drives superorbital variations of outbursts and colour
Disc precession in Be/X-ray binaries drives superorbital variations of outbursts and colour
Superorbital periods that are observed in the brightness of Be/X-ray binaries may be driven by a misaligned and precessing Be star disc. We examine how the precessing disc model explains the superorbital variation of (i) the magnitude of the observed X-ray outbursts and (ii) the observed colour. With hydrodynamical simulations we show that the magnitude of the average accretion rate on to the neutron star, and therefore the X-ray outbursts, can vary by over an order of magnitude over the superorbital period for Be star spin-orbit misalignments $\gtrsim 70^\circ$ as a result of weak tidal truncation. Most Be/X-ray binaries are redder at optical maximum when the disc is viewed closest to face-on since the disc adds a large red component to the emission. However, A0538-66 is redder at optical minimum. This opposite behaviour requires an edge-on disc at optical minimum and a radially narrow disc such that it does not add a large red signature when viewed face-on. For A0538-66, the misalignment of the disc to the binary orbit must be about 70-80° and the inclination of the binary orbit to the line of sight must be similarly high, although restricted to $
astro-ph.HE
Martin, Rebecca G.
d703869a-1889-4b41-af73-7bfc7b4133a3
Charles, Philip A.
0429b380-0754-4dc1-8def-885c7fa6a086
Martin, Rebecca G.
d703869a-1889-4b41-af73-7bfc7b4133a3
Charles, Philip A.
0429b380-0754-4dc1-8def-885c7fa6a086
[Unknown type: UNSPECIFIED]
Abstract
Superorbital periods that are observed in the brightness of Be/X-ray binaries may be driven by a misaligned and precessing Be star disc. We examine how the precessing disc model explains the superorbital variation of (i) the magnitude of the observed X-ray outbursts and (ii) the observed colour. With hydrodynamical simulations we show that the magnitude of the average accretion rate on to the neutron star, and therefore the X-ray outbursts, can vary by over an order of magnitude over the superorbital period for Be star spin-orbit misalignments $\gtrsim 70^\circ$ as a result of weak tidal truncation. Most Be/X-ray binaries are redder at optical maximum when the disc is viewed closest to face-on since the disc adds a large red component to the emission. However, A0538-66 is redder at optical minimum. This opposite behaviour requires an edge-on disc at optical minimum and a radially narrow disc such that it does not add a large red signature when viewed face-on. For A0538-66, the misalignment of the disc to the binary orbit must be about 70-80° and the inclination of the binary orbit to the line of sight must be similarly high, although restricted to $
Text
2311.06442v1
- Author's Original
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Accepted/In Press date: 11 November 2023
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Accepted for publication in MNRAS
Keywords:
astro-ph.HE
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Local EPrints ID: 485712
URI: http://eprints.soton.ac.uk/id/eprint/485712
PURE UUID: e5a36aed-9fc8-4fe7-bb1e-01d75baa84a6
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Date deposited: 15 Dec 2023 17:32
Last modified: 17 Mar 2024 06:26
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Author:
Rebecca G. Martin
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