http://arxiv.org/abs/1609.06703
We have monitored the transient neutron star low-mass X-ray binary 1RXS J180408.9-342058 in quiescence after the end of its ~4.5 month outburst in 2015. The source has been observed 34 times using Swift and once using XMM-Newton in order to study the cooling of an accretion heated neutron star crust. During both the Swift and the XMM-Newton observations the X-ray spectra were dominated by a thermal component. The thermal evolution showed a gradual decay in the X-ray luminosity from ~18×10^32 to ~4×10^32 (D/5.8 kpc)^2 erg s^{-1} and the inferred neutron star surface temperature (for an observer at infinity) decreased from ~100 to ~72 eV between ~8 to ~379 days after the end of outburst. This can be interpreted as cooling of a neutron star crust that had been heated due to accretion during the preceding outburst. Modeling the observed temperature curve with the thermal evolution code 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 quiescent thermal evolution. Alternatively, the quiescent 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, unlike the Swift data the XMM-Newton data statistically required a power-law component in addition to a thermal component to obtain a good spectral fit. This additional component contributed ~30 per cent of the total unabsorbed flux in 0.5 – 10 keV energy range. The physical origin of the power-law is unknown, but one possibility is that it arises from low-level accretion. The presence of the power-law 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.
A. Parikh, R. Wijnands, N. Degenaar, et. al.
Thu, 22 Sep 16
56/62
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