Test of the string loop oscillation model using kHz quasiperiodic oscillations in a neutron star binary

Abstract

The model of current-carrying string loop oscillations is tested to explain the special set of frequencies related to the high-frequency quasiperiodic oscillations (HF QPOs) observed recently in the low-mass X-ray binary XTE J1701-407 containing a neutron star. The external geometry of the neutron star is approximated by the Kerr geometry, introducing errors not exceeding 10~\% for slowly rotating massive neutron stars. The frequencies of the radial and vertical string loop oscillations are then governed by the mass M and dimensionless spin a of the neutron star, and by the dimensionless parameter ω describing combined effects of the string loop tension and its angular momentum. It is explicitly demonstrated that the string-loop oscillation model can explain the observed kHz frequencies for the neutron star parameters restricted to the intervals 0.2<a<0.4 and 2.1<M/ M<2.5. However, the stringy parameter ω cannot be the same for all the three HF QPO observations in the XTE J1701-407 source; the limits on the acceptable values of ω are given in dependence on the spacetime parameters M and a.