TB853.1 98042595单镜头反光照相机测光范围与测光光学系统设计计算=Design of light measuring system range andoptical system of SLR camera[刊,中]/冯华君(浙江大学光学仪器国家重点实验室.浙江,杭州(310027))∥光学技术.—1998,(2).
Based on shell model of nuclei, the influence of a high magnetic field on β^+ decay in the crusts of accreting neutron stars is analyzed. The magnetic field effect on 54 Mn is discussed. The results show that a weak...Based on shell model of nuclei, the influence of a high magnetic field on β^+ decay in the crusts of accreting neutron stars is analyzed. The magnetic field effect on 54 Mn is discussed. The results show that a weak magnetic field makes little effect on β^+ decay but a strong magnetic field (B 〉 10^11 G) improves β^+ decay rates obviously. The conclusion derived will benefit to develop further research on nuclear astrophysics in the future.展开更多
文摘TB853.1 98042595单镜头反光照相机测光范围与测光光学系统设计计算=Design of light measuring system range andoptical system of SLR camera[刊,中]/冯华君(浙江大学光学仪器国家重点实验室.浙江,杭州(310027))∥光学技术.—1998,(2).
基金The project supported by National Natural Science Foundation of China under Grant No. 10347008
文摘Based on shell model of nuclei, the influence of a high magnetic field on β^+ decay in the crusts of accreting neutron stars is analyzed. The magnetic field effect on 54 Mn is discussed. The results show that a weak magnetic field makes little effect on β^+ decay but a strong magnetic field (B 〉 10^11 G) improves β^+ decay rates obviously. The conclusion derived will benefit to develop further research on nuclear astrophysics in the future.
