Effects of QCD phase transition on the collapse and bounce of a differentially rotating massive star
スポンサーリンク
概要
著者
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Arai K
Kumamoto Univ. Kumamoto
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Hashimoto Masa-aki
Department Of Physics Kyushu University
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Hashimoto Masa-aki
Department Of Physics Faculty Of Science Kyusyu University
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Hashimoto Masa‐aki
Kyushu Univ. Fukuoka
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Hashimoto M
Department Of Physics Kyushu University
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Kotake Kei
Division Of Theoretical Astronomy National Astronomical Observatory Of Japan:center For Computationa
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Yamada Shoichi
Advanced Research Institute For Science And Engineering Waseda 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
関連論文
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- Global structure of an accretion disk with self-gravity
- Steady structure of advection dominated accretion disks with global magnetic fields
- Equilibrium structure of advection dominated accretion disks around black holes
- Explosive Nucleosynthesis in Magnetohydrodynamical Jets from Collapsars(Astrophysics and Cosmology)
- MHD simulations of a collapsar model
- Nuclear flashes toward superbursts in accreting neutron stars
- Exotic cooling on isolated neutron stars with different surface composition
- Effects of QCD phase transition on the collapse and bounce of a differentially rotating massive star
- Observational constrains on a decaying Λ cosmology
- Evolution transition from rapidly rotating neutron stars to strange stars
- Formation of atoms, molecules and the first objects in the universe with a variable cosmological term
- Thermal evolution of the scale factor with a variable cosmological term
- Primordial nucleosynthesis with NACRE nuclear reaction rates
- Primordial nucleosynthesis with degenerate neutrinos
- Nucleosynthesis inside a thick accretion disk around a massive black hole
- The 14^N(e^-,ν) 14^C(α,γ) 18^O reaction and Helium flash in stellar core
- Initial Shock Waves for Explosive Nucleosynthesis in Type II Supernova
- Equation of state in dense stellar matter at high temperatures
- p-Process nucleosynthesis in a core-collapse supernova
- R-process nucleosynthesis due to inner explosion of a low mass iron-core
- Nitrogen production inside an accretion disk around an intermediate-mass black hole
- Heavy Elements Synthesized in an Accretion Disk around a Black Hole Associated with Gamma-Ray Bursts(Poster)
- Nucleosynthesis inside an Accretion Disk in a Type II Collapsar
- Nuclear flashes ignited deep inside the accreted layer on neutron stars
- Final products of the rp-process and synthesis of p-nuclei on accreting neutron stars
- Neutrino cooling in optically thin accretion flows
- P-Process nucleosynthesis inside supernova-driven supercritical accretion disks : Fallback of explosively burned layers of a progenitor
- Nucleosynthesis inside Supernova-Driven Supercritical Accretion Disks
- Nucleosynthesis inside an advection-dominated accretion flow around a black hole
- Thermonuclear shell flash model on accreting neutron stars
- Gravitino Overproduction through Moduli Decay : Particles and Fields
- Reconsidering Composite Higgs Loop Effects in the Top Mode Standard Model : Particles and Fields
- Effects of a New Triple-α Reaction on X-Ray Bursts of a Helium-Accreting Neutron Star
- Effects of a New Triple-α Reaction on the s-Process in Massive Stars
- Explosive Nucleosynthesis in Magnetohydrodynamical Jets from Collapsars (2) Heavy-Element Nucleosynthesis of s, p, r-Processes
- Explosive Nucleosynthesis in Magnetohydrodynamical Jets from Collapsars. II : Heavy-Element Nucleosynthesis of s, p, r-Processes(Astrophysics and Cosmology)
- Effects of a New Triple-α Reaction on the s-Process in Massive Stars
- Effects of a New Triple-α Reaction on X-Ray Bursts of a Helium-Accreting Neutron Star
- Explosive Nucleosynthesis in Magnetohydrodynamical Jets from Collapsars
- Heavy Elements Synthesized in an Accretion Disk around a Black Hole Associated with Gamma-Ray Bursts(Poster)