Astronomy and Astrophysics – Astrophysics
Scientific paper
2000-07-06
Astronomy and Astrophysics
Astrophysics
11 pages, 7 ps figures; accepted for publication in A&A Main Journal
Scientific paper
A study of the luminous dipping LMXB X1624-490 was made using BeppoSAX. From modelling the MECS radial profile in several energy bands, the optical depth to dust scattering at 1 keV was found to be 2.4+/-0.4. The non-dip and dip spectra of X1624-490 in the energy band 1-100 keV are well-described by emission consisting of a point-like blackbody from the neutron star plus extended Comptonized emission from an ADC. The blackbody temperature was 1.31+/-0.07 keV and the Comptonized emission had photon power law index 2.0+0.5/-0.7 and cut-off energy ~12 keV. Good fits to the dip spectra were obtained by allowing the Comptonized emission to be progressively covered by an extended absorber while the blackbody was rapidly absorbed and a constant halo component accounted for dust scattering into the line-of-sight. From the dip ingress time, a diameter of the extended Comptonized emission region of 5.3+/-0.8x10^10 cm was derived, consistent with a hot, X-ray emitting corona extending to ~50% of the accretion disk radius. The source luminosity for a distance of 15 kpc is 7.3x10^37 erg/s, an appreciable fraction of the Eddington limit making X1624-490 the most luminous dipping LMXB. The half-height of the blackbody emitting region on the neutron star of 6.8+/-1.8 km agrees well with the half-height of the radiatively supported inner accretion disk of 6.3+/-2.9 km. Together with similar agreement recently obtained for 13 other LMXB in an ASCA survey (Church & Balucinska-Church 2000), this strongly supports the identification of the neutron star as the origin of the blackbody emission in LMXB and suggests a mechanism in which the disk height is the main factor determining the level of blackbody emission. Finally, from RXTE ASM data, we derive an improved orbital period of 20.87+/-0.01 hr.
Balucinska-Church Monika
Church M. J.
Humphrey Philip J.
Parmar Arvind N.
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