The advection-dominated accretion flow for the anti-correlation between the X-ray photon index and the X-ray luminosity in neutron star low-mass X-ray binaries

Abstract

Observationally, an anti-correlation between the X-ray photon index (obtained by fitting the X-ray spectrum between 0.5 and 10 keV with a single power law) and the X-ray luminosity L 0.5-10keV, is found in neutron star low-mass X-ray binaries (NS-LMXBs) in the range of L 0.5-10keV 1034-1036\ erg\ s-1. In this paper, we explain the observed anti-correlation between and L 0.5-10keV within the framework of the self-similar solution of the advection-dominated accretion flow (ADAF) around a weakly magnetized NS. The ADAF model intrinsically predicts an anti-correlation between and L 0.5-10keV. In the ADAF model, there is a key parameter, f th, which describes the fraction of the ADAF energy released at the surface of the NS as thermal emission to be scattered in the ADAF. We test the effect of f th on the anti-correlation between and L 0.5-10keV. It is found that the value of f th can significantly affect the anti-correlation between and L 0.5-10keV. Specifically, the anti-correlation between and L 0.5-10keV becomes flatter with decreasing f th as taking f th=0.1, 0.03, 0.01, 0.005, 0.003 and 0 respectively. By comparing with a sample of non-pulsating NS-LMXBs with well measured and L 0.5-10keV, we find that indeed only a small value of 0.003 f th 0.1 is needed to match the observed anti-correlation between and L 0.5-10keV. Finally, we argue that the small value of f th 0.1 derived in this paper further confirms our previous conclusion that the radiative efficiency of NSs with an ADAF accretion may not be as high as ε M GM R*/ M c2 0.2.