Re-research on the size of proto-neutron star in core-collapse supernova

The electron capture timescale may be shorter than hydrodynamic timescale in inner iron core of core-collapse supernova according to a recent new idea. Based on the new idea, this paper carries out a numerical simulation on supernova explosion for the progenitor model Ws15M. The numerical result shows that the size of proto-neutron star has a significant change （decrease about 20%）, which may affects the propagation of the shock wave and the final explosion energy.

Re-research on the size of proto-neutron star in core-collapse supernova

The electron capture timescale may be shorter than hydrodynamic timescale in inner iron core of core-collapse supernova according to a recent new idea. Based on the new idea, this paper carries out a numerical simulation on supernova explosion for the progenitor model Ws15M超星星爆炸;中子;恒星;冲击波supernova explosion,proto-neutron star, shock waveProject supported by the National Natural Science Foundation of China (Grant No 10778719); the Scientific Research and Fund of Sichuan Provincial Education Department of China (Grant No 2006A079) and the Science and Technological Foundation of China West Normal University.2007-05-238/9/2007 12:00:00 AMThe electron capture timescale may be shorter than hydrodynamic timescale in inner iron core of core-collapse supernova according to a recent new idea. Based on the new idea, this paper carries out a numerical simulation on supernova explosion for the progenitor model Ws15M. The numerical result shows that the size of proto-neutron star has a significant change （decrease about 20%）, which may affects the propagation of the shock wave and the final explosion energy.Institute of Theoretical Physics, China West Normal University, Nanchong 637002, China;Institute of Theoretical Physics, China West Normal University, Nanchong 637002, ChinaCorresponding author. E-mail： zqluo@tom.com/qk/85823A/200803/26618928.html9760B, 2340The electron capture timescale may be shorter than hydrodynamic timescale in inner iron core of core-collapse supernova according to a recent new idea. Based on the new idea, this paper carries out a numerical simulation on supernova explosion for the progenitor model Ws15M超星星爆炸;中子;恒星;冲击波supernova explosion,proto-neutron star, shock waveProject supported by the National Natural Science Foundation of China (Grant No 10778719); the Scientific Research and Fund of Sichuan Provincial Education Department of China (Grant No 2006A079) and the Science and Technological Foundation of China West Normal University.2007-05-238/9/2007 12:00:00 AMThe electron capture timescale may be shorter than hydrodynamic timescale in inner iron core of core-collapse supernova according to a recent new idea. Based on the new idea, this paper carries out a numerical simulation on supernova explosion for the progenitor model Ws15M. The numerical result shows that the size of proto-neutron star has a significant change （decrease about 20%）, which may affects the propagation of the shock wave and the final explosion energy.Institute of Theoretical Physics, China West Normal University, Nanchong 637002, China;Institute of Theoretical Physics, China West Normal University, Nanchong 637002, ChinaCorresponding author. E-mail： zqluo@tom.com/qk/85823A/200803/26618928.html9760B, 2340The electron capture timescale may be shorter than hydrodynamic timescale in inner iron core of core-collapse supernova according to a recent new idea. Based on the new idea, this paper carries out a numerical simulation on supernova explosion for the progenitor model Ws15M超星星爆炸;中子;恒星;冲击波supernova explosion,proto-neutron star, shock waveProject supported by the National Natural Science Foundation of China (Grant No 10778719); the Scientific Research and Fund of Sichuan Provincial Education Department of China (Grant No 2006A079) and the Science and Technological Foundation of China West Normal University.2007-05-238/9/2007 12:00:00 AMThe electron capture timescale may be shorter than hydrodynamic timescale in inner iron core of core-collapse supernova according to a recent new idea. Based on the new idea, this paper carries out a numerical simulation on supernova explosion for the progenitor model Ws15M. The numerical result shows that the size of proto-neutron star has a significant change （decrease about 20%）, which may affects the propagation of the shock wave and the final explosion energy.Institute of Theoretical Physics, China West Normal University, Nanchong 637002, China;Institute of Theoretical Physics, China West Normal University, Nanchong 637002, ChinaCorresponding author. E-mail： zqluo@tom.com/qk/85823A/200803/26618928.html9760B, 2340The electron capture timescale may be shorter than hydrodynamic timescale in inner iron core of core-collapse supernova according to a recent new idea. Based on the new idea, this paper carries out a numerical simulation on supernova explosion for the progenitor model Ws15M超星星爆炸;中子;恒星;冲击波supernova explosion,proto-neutron star, shock waveProject supported by the National Natural Science Foundation of China (Grant No 10778719); the Scientific Research and Fund of Sichuan Provincial Education Department of China (Grant No 2006A079) and the Science and Technological Foundation of China West Normal University.2007-05-238/9/2007 12:00:00 AMThe electron capture timescale may be shorter than hydrodynamic timescale in inner iron core of core-collapse supernova according to a recent new idea. Based on the new idea, this paper carries out a numerical simulation on supernova explosion for the progenitor model Ws15M. The numerical result shows that the size of proto-neutron star has a significant change （decrease about 20%）, which may affects the propagation of the shock wave and the final explosion energy.Institute of Theoretical Physics, China West Normal University, Nanchong 637002, China;Institute of Theoretical Physics, China West Normal University, Nanchong 637002, ChinaCorresponding author. E-mail： zqluo@tom.com/qk/85823A/200803/26618928.html9760B, 2340The electron capture timescale may be shorter than hydrodynamic timescale in inner iron core of core-collapse supernova according to a recent new idea. Based on the new idea, this paper carries out a numerical simulation on supernova explosion for the progenitor model Ws15M$_{\odot}$. The numerical result shows that the size of proto-neutron star has a significant change (decrease about 20{\%}), which may affects the propagation of the shock wave and the final explosion energy.