Stable Numerical Method in Computation of Stellar Evolution
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概要
- 論文の詳細を見る
To compute the stellar structure and evolution in different stages, such as (1) red-giant stars in which the density and density gradient change over quite wide ranges, (2) rapid evolution with neutrino loss or unstable nuclear flashes, (3) hydrodynamical stages of star formation or supernova explosion, (4) transition phases from quasi-static to dynamical evolutions, (5) mass-accreting or losing stars in binary-star systems, and (6) evolution of stellar core whose mass is increasing by shell burning or decreasing by penetration of convective envelope into the core, we face "multi-timescale problems" which can neither be treated by simple-minded explicit scheme nor implicit one. This problem has been resolved by three prescriptions; one by introducing the hybrid scheme suitable for the multi-timescale problems of quasi-static evolution with heat transport, another by introducing also the hybrid scheme suitable for the multi-timescale problems of hydrodynamic evolution, and the other by introducing the Eulerian or, in other words, the mass fraction coordinate for evolution with changing mass. When all of them are combined in a single computer code, we can compute numerically stably any phase of stellar evolution including transition phases, as far as the star is spherically symmetric.
- 理論物理学刊行会の論文
- 1982-03-01
著者
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野本 憲一
Department Of Astronomy And Research Center For The Early Universe The University Of Tokyo
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SUGIMOTO Daiichiro
Department of Earth Science and Astronomy College of General Education, University of Tokyo
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ERIGUCHI Yoshiharu
Department of Earth Science and Astronomy College of General Education, University of Tokyo
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Sugimoto Daiichiro
Department Of Earth Science And Astronomy University Of Tokyo
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Eriguchi Yoshiharu
Department Of Earth Science And Astronomy University Of Tokyo
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Eriguchi Yoshiharu
Department Of Earth Science And Astronomy College Of General Education University Of Tokyo
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Nomoto Ken'ichi
Department Of Physics Ibaraki University : Nasa-goddard Space Flight Center
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Sugimoto Daiichiro
Department Of Earth Science And Astronomy College Of General Education University Of Tokyo
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ERIGUCHI Yoshiharu
Department of Earth Science and Astronomy Graduate School of Arts and Science, University of Tokyo
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Nomoto Ken′ichi
Department of Physics, Ibaraki University
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NOMOTO Ken'ichi
Department of Astronomy, University of Tokyo
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NOMOTO Ken'Ichi
Department of Physics, Ibaraki University : NASA-Goddard Space Flight Center
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NOMOTO Ken'ichi
Department of Astronomy, University of Tokyo:Research Center for the Early Universe, University of Tokyo
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NOMOTO Ken'ichi
Department of Physics, Ibaraki University
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Sugimoto Daiichiro
Department of General Systems Studies, College of Arts and Sciences, The University of Tokyo
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