Excitation of a nonradial mode in a millisecond X-ray pulsar XTE J1751-305

Abstract

We discuss candidates for non-radial modes excited in a mass accreting and rapidly rotating neutron star to explain the coherent frequency identified in the light curves of a millisecond X-ray pulsar XTE J1751-305. The spin frequency of the pulsar is spin435Hz and the identified coherent frequency is osc=0.5727595× spin. Assuming the frequency identified is that observed in the corotating frame of the neutron star, we find that the surface r-modes of l=m=1 and 2 excited by ε-mechanism due to helium burning in the thin shell can give the frequency ratio = osc/ spin0.57 at spin=435Hz. As another candidate for the observed ratio , we also suggest a toroidal crustal mode that has penetrating amplitudes in the fluid core and is destabilized by gravitational wave emission. Since the surface fluid layer is separated from the fluid core by a solid crust, the amplitudes of an r-mode in the core, which is destabilized by emitting gravitational waves, can be by a large factor different from those in the fluid ocean. We find that the amplification factor defined as f amp=α surface/α core is as large as f amp 102 for the l=m=2 r-mode at spin=435Hz for a M=1.4M neutron star model. Because of this significant amplification of the r-mode amplitudes in the surface fluid layer, we suggest that, when proper corrections to the r-mode frequency such as due to the general relativistic effects are taken into consideration, the core r-mode of l=m=2 can be a candidate for the detected frequency, without leading to serious contradictions to, for example, the spin evolution of the underlying neutron star.