Heavy Elements Synthesized in an Accretion Disk around a Black Hole Associated with Gamma-Ray Bursts(Poster)
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概要
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We examine nucleosynthesis inside an accretion disk with accretion rates 0.01 - 1M_<⊙> s^<-1> associated with gamma-ray bursts. The black hole mass is fixed to be 3M_<⊙>. The chemical composition of accreting gas far from the black hole is taken to be that of an oxygen-rich layer of a massive star before the collapse. The disk consists of five layers characterized by dominant elements : ^<16>O, ^<28>Si, ^<54>Fe (and ^<56>Ni), ^4He, and nucleons. As the accretion rate increases, the individual layers shift outwards with keeping the overall profiles of composition. A similar situation may be realized in an accretion disk around an intermediate mass black hole produced in a collapsing Population III supermassive star.
- 理論物理学刊行会の論文
- 2004-11-15
著者
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Hashimoto Masa-aki
Department Of Physics Kyushu University
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Hashimoto Masa-aki
Department Of Earth Science And Astronomy College Of Arts And Sciences University Of Tokyo
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Hashimoto Masa-aki
Department Of Physics Faculty Of Science Kyusyu University
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FUJIMOTO Shin-ichirou
Kumamoto National College of Technology
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MATSUBA Ryuichi
Department of Physics, Kumamoto University
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Arai Kenzo
Department Of Physics Kumamoto University
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Hashimoto Michio
Department Of Physics Nagoya University
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Hashimoto Masashi
Research Fellow Of The Japan Society For The Promotion Of Science
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Hashimoto Masa‐aki
Department Of Physics Kyushu University
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