Spin evolution of neutron stars in two modes: implication for millisecond pulsars [HEAP]

http://arxiv.org/abs/2101.00518


An understanding of spin frequency ($\nu$) evolution of neutron stars in the low-mass X-ray binary (LMXB) phase is essential to explain the observed $\nu$-distribution of millisecond pulsars (MSPs), and to probe the stellar and binary physics, including the possibility of continuous gravitational wave emission. Here, using numerical computations we conclude that $\nu$ can evolve in two distinctly different modes, as $\nu$ may approach a lower spin equilibrium value ($\nu_{\rm eq,per}$) for persistent accretion for a long-term average accretion rate ($\dot{M}{\rm av}$) greater than a critical limit ($\dot{M}{\rm av,crit}$), and may approach a higher effective spin equilibrium value ($\nu_{\rm eq,eff}$) for transient accretion for $\dot{M}{\rm av} < \dot{M}{\rm av,crit}$. For example, when $\dot{M}{\rm av}$ falls below $\dot{M}{\rm av,crit}$ for an initially persistent source, $\nu$ increases considerably due to transient accretion, which is counterintuitive. We also find that, contrary to what was suggested, a fast or sudden decrease of $\dot{M}{\rm av}$ to zero in the last part of the LMXB phase is not essential for the genesis of spin-powered MSPs, and neutron stars could spin up in this $\dot{M}{\rm av}$-decreasing phase. Our findings imply that the traditional way of $\nu$-evolution computation is inadequate in most cases, even for initially persistent sources, and may not even correctly estimate whether $\nu$ increases or decreases.

Read this paper on arXiv…

S. Bhattacharyya
Tue, 5 Jan 21
43/82

Comments: 5 pages, 3 figures, accepted for publication in Monthly Notices of the Royal Astronomical Society Letters