Bibcode
Parikh, A. S.; Wijnands, R.; Degenaar, N.; Ootes, L. S.; Page, D.; Altamirano, D.; Cackett, E. M.; Deller, A. T.; Gusinskaia, N.; Hessels, J. W. T.; Homan, J.; Linares, M.; Miller, J. M.; Miller-Jones, J. C. A.
Referencia bibliográfica
Monthly Notices of the Royal Astronomical Society, Volume 466, Issue 4, p.4074-4082
Fecha de publicación:
4
2017
Número de citas
23
Número de citas referidas
22
Descripción
We have monitored the transient neutron star low-mass X-ray binary 1RXS
J180408.9-342058 in quiescence after its ∼4.5 month outburst in
2015. The source has been observed using Swift and XMM-Newton. Its X-ray
spectra were dominated by a thermal component. The thermal evolution
showed a gradual X-ray luminosity decay from ∼18 ×
1032 to ∼4 × 1032 (D/5.8
kpc)2 erg s-1 between ∼8 and ∼379 d in
quiescence, and the inferred neutron star surface temperature (for an
observer at infinity; using a neutron star atmosphere model) decreased
from ∼100 to ∼71 eV. This can be interpreted as cooling of an
accretion-heated neutron star crust. Modelling the observed temperature
curve (using nscool) indicated that the source required ∼1.9 MeV per
accreted nucleon of shallow heating in addition to the standard deep
crustal heating to explain its thermal evolution. Alternatively, the
decay could also be modelled without the presence of deep crustal
heating, only having a shallow heat source (again ∼1.9 MeV per
accreted nucleon was required). However, the XMM-Newton data
statistically required an additional power-law component. This component
contributed ∼30 per cent of the total unabsorbed flux in 0.5-10 keV
energy range. The physical origin of this component is unknown. One
possibility is that it arises from low-level accretion. The presence of
this component in the spectrum complicates our cooling crust
interpretation because it might indicate that the smooth luminosity and
temperature decay curves we observed may not be due to crust cooling but
due to some other process.
Proyectos relacionados
Agujeros negros, estrellas de neutrones, enanas blancas y su entorno local
Los agujeros negros y estrellas de neutrones en binarias de rayos-X son laboratorios únicos para explorar la física de estos objetos compactos. No solo permiten confirmar la existencia de agujeros negros de origen estelar a través de mediciones dinámicas de sus masas, sino que también permiten investigar el comportamiento de la materia y la
Montserrat
Armas Padilla