期刊
MONTHLY NOTICES OF THE ROYAL ASTRONOMICAL SOCIETY
卷 500, 期 4, 页码 4491-4505出版社
OXFORD UNIV PRESS
DOI: 10.1093/mnras/staa3547
关键词
conduction; dense matter; stars: neutron; X-rays: bursts
资金
- Russian Science Foundation [19-1200133]
- National Science Center, Poland [2018/29/B/ST9/02013]
The study demonstrates that the deep layer of the outer neutron star crust has specific heat-accumulating properties, absorbing a significant amount of heat. This warm layer can serve as a heat reservoir and can be helpful in interpreting superbursts in neutron stars.
We study heat diffusion after an energy release in a deep spherical layer of the outer neutron star crust (10(7) less than or similar to rho less than or similar to 4 x 10(11) g cm(-3)). We demonstrate that this layer possesses specific heat-accumulating properties, absorbing heat and directing it mostly inside the star. It can absorb up to similar to 10(43)-10(44) erg due to its high heat capacity, until its temperature exceeds T similar to 3 x 10(9) K and triggers a rapid neutrino cooling. A warm layer (T similar to 10(8)-3 x 10(9) K) can serve as a good heat reservoir, which is thermally decoupled from the inner crust and the stellar core for a few months. We present a toy model to explore the heat diffusion within the heat-accumulating layer, and we test this model using numerical simulations. We formulate some generic features of the heat propagation that can be useful, for instance, for the interpretation of superbursts in accreting neutron stars. We present a self-similar analysis of late afterglow after such superbursts, which can be helpful to estimate properties of bursting stars.
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