Boundary layer emission and Z-track in the color-color diagram of luminous LMXBs

Abstract

We demonstrate that Fourier-frequency resolved spectra of atoll and Z- sources are identical, despite significant difference in their average spectra and luminosity (by a factor of ~10-20). This result fits in the picture we suggested earlier, namely that the f> 1 Hz variability in luminous LMXBs is primarily due to variations of the boundary layer luminosity. In this picture the frequency resolved spectrum equals the boundary layer spectrum, which therefore can be straightforwardly determnined from the data. The obtained so boundary layer spectrum is well approximated by the saturated Comptonization model, its high energy cut-off follows kT~2.4 keV black body. Its independence on the global mass accretion rate lends support to the theoretical suggestion by Inogamov &Sunyaev (1999) that the boundary layer is radiation pressure supported. With this assumption we constrain the gravity on the neutron star surface and its mass and radius. Equipped with the knowledge of the boundary layer spectrum we attempt to relate the motion along the Z-track to changes of physically meaningful parameters. Our results suggest that the contribution of the boundary layer to the observed emission decreases along the Z-track from conventional ~50% on the horizontal branch to a rather small number on the normal branch. This decrease can be caused, for example, by obscuration of the boundary layer by the geometrically thick accretion disk at Mdot ~ Mdot_Edd. Alternatively, this can indicate significant change of the structure of the accretion flow at Mdot ~ Mdot_ Edd and disappearance of the boundary layer as a distinct region of the significant energy release associated with the neutron star surface.Comment: 9 pages, 7 figures, Accepted in A&