Astronomy and Astrophysics – Astrophysics
Scientific paper
2001-10-26
Mon.Not.Roy.Astron.Soc. 333 (2002) 943
Astronomy and Astrophysics
Astrophysics
10 pages,5 figures, minor changes. Accepted by MNRAS
Scientific paper
10.1046/j.1365-8711.2002.05475.x
The loss of angular momentum due to unstable r-modes in hot young neutron stars has been proposed as a mechanism for achieving the spin rates inferred for young pulsars. One factor that could have a significant effect on the action of the r-mode instability is fallback of supernova remnant material. The associated accretion torque could potentially counteract any gravitational-wave induced spin-down, and accretion heating could affect the viscous damping rates and hence the instability. We discuss the effects of various external agents on the r-mode instability scenario within a simple model of supernova fallback on to a hot young magnetized neutron star. We find that the outcome depends strongly on the strength of the star's magnetic field. Our model is capable of generating spin rates for young neutron stars that accord well with initial spin rates inferred from pulsar observations. The combined action of r-mode instability and fallback appears to cause the spin rates of neutron stars born with very different spin rates to converge, on a timescale of about a year. The results suggest that stars with magnetic fields $\le10^{13}$ G could emit a detectable gravitational wave signal for perhaps several years after the supernova event. Stars with higher fields (magnetars) are unlikely to emit a detectable gravitational wave signal via the r-mode instability. The model also suggests that the r-mode instability could be extremely effective in preventing young neutron stars from going dynamically unstable to the bar-mode.
Andersson Nils.
Watts Anna L.
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