Astronomy and Astrophysics – Astrophysics
Scientific paper
1999-12-06
Astronomy and Astrophysics
Astrophysics
8 pages, 3 figures, uses emulateapj.sty and apjfonts.sty. Submitted 15 September 1999 to ApJ; awaiting referee's report
Scientific paper
10.1086/308969
Recent observations suggest that neutron stars in low-mass X-ray binaries rotate within a narrow range of spin frequencies clustered around 300 Hz. A proposed explanation for this remarkable fact is that gravitational radiation from a steady-state r-mode oscillation in the neutron star's core halts the spin-up due to accretion. For the neutron star transients, balancing the time-averaged accretion torque with gravitational wave emission from steady-state, constant amplitude r-mode pulsations implies a quiescent luminosity too bright to be consistent with observations (in particular of Aql X-1). The viscous dissipation (roughly 10 MeV per accreted nucleon for a spin of 300 Hz) from such an r-mode makes the core sufficiently hot to power a thermal luminosity of order 1e34 erg/s when accretion halts. This is the minimum quiescent luminosity that the neutron star must emit when viscous heating in the core is balanced by radiative cooling from the surface, as is the case when the core of the star is superfluid. We therefore conclude that either the accretion torque is much less than (dM/dt)(GMR)^{1/2}, or that a steady-state r-mode does not limit the spin rate of the neutron star transients. Future observations with AXAF and XMM promise to further constrain the amount of viscous dissipation in the neutron star core.
Brown Edward F.
Ushomirsky Greg
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