Numerical Experiments for Nuclear Flashes toward Superbursts in an Accreting Neutron Star

Author:

Hashimoto Masa-aki1,Kuromizu Reiko1,Ono Masaomi1,Noda Tsuneo2ORCID,Fujimoto Masayuki Y.3

Affiliation:

1. Department of Physics, Kyushu University, Fukuoka 810-8560, Japan

2. Kurume Institute of Technology, Fukuoka 830-0052, Japan

3. Department of Physics, Hokkaido University, Sapporo 060-8810, Japan

Abstract

We show that the superburst would be originated from thermonuclear burning ignited by accumulated fuels in the deep layers compared to normal X-ray bursts. Two cases are investigated for models related to superbursts by following thermal evolution of a realistic neutron star: helium flash and carbon flash accompanied with many normal bursts. For a helium flash, the burst shows the long duration when the accretion rate is low compared with the observation. The flash could become a superburst if the burning develops to the deflagration and/or detonation. For a carbon flash accompanied with many normal bursts, after successive 2786 normal bursts during 1.81 × 109 s, the temperature reaches the deflagration temperature. This is due to the produced carbon which amount reaches to ≈0.1 in the mass fraction. The flash will develop to dynamical phenomena of the deflagration and/or detonation, which may lead to a superburst.

Publisher

Hindawi Limited

Subject

General Medicine

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