Deep crustal heating for realistic compositions of thermonuclear ashes

ABSTRACT The deep crustal heating, associated with exothermal nuclear reactions, is believed to be a key parameter for describing the thermal evolution of accreting neutron stars. In this paper, we present the first thermodynamically consistent calculations of the crustal heating for realistic compo...

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Veröffentlicht in:Monthly notices of the Royal Astronomical Society 2021-11, Vol.507 (3), p.3860-3870
Hauptverfasser: Shchechilin, N N, Gusakov, M E, Chugunov, A I
Format: Artikel
Sprache:eng
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Zusammenfassung:ABSTRACT The deep crustal heating, associated with exothermal nuclear reactions, is believed to be a key parameter for describing the thermal evolution of accreting neutron stars. In this paper, we present the first thermodynamically consistent calculations of the crustal heating for realistic compositions of thermonuclear ashes. In contrast to previous studies based on the traditional approach, we account for neutron hydrostatic/diffusion (nHD) equilibrium condition imposed by superfluidity of neutrons in a major part of the inner crust and rapid diffusion in the remaining part of the inner crust. We apply a simplified reaction network to model nuclear evolution of various multi-component thermonuclear burning ashes (superburst, KEPLER, and extreme rp-process ashes) in the outer crust and calculate the deep crustal heating energy release Q, parametrized by the pressure at the outer–inner crust interface, Poi. Using the general thermodynamic arguments, we set a lower limit on Q, Q ≳ 0.13−0.2 MeV per baryon (an actual value depends on the ash composition and the employed mass model).
ISSN:0035-8711
1365-2966
DOI:10.1093/mnras/stab2415