Abstract: By taking account of the finite-size effect rationally in the framework of the Hartree-Fock theory, the compression modulus KA at zero temperature of finite nuclear matter is evaluated with the Skyrme force SKM*. Energies of the isoscalar giant monopole resonance of nuclei calculated are found to be in agreement with the experimental and empirical values. The influence of neutron-proton asymmetry, finite size and Coulomb force effects on KA is also investigated.
WANG Nengping;YANG Shande*. Compression Modulus of Finite Nuclear Matter at Zero Temperature[J]. 中国物理快报, 1995, 12(6): 338-341.
WANG Nengping, YANG Shande*. Compression Modulus of Finite Nuclear Matter at Zero Temperature. Chin. Phys. Lett., 1995, 12(6): 338-341.
MA Long;ZHOU Xiao-Hong;XING Ye-Bing;ZHANG Yu-Hu;GUO Ying-Xing;LEI Xiang-Guo;XIE Chen-Ying;Oshima M.;Toh Y.;Koizumi M.;Osa A.;Hatsukawa Y.;Sugawara M.. Properties of the πh9/2 otimes νi13/2 Oblate Band in 188Tl[J]. 中国物理快报, 2006, 23(7): 1727-1730.
CHE Xing-Lai;ZHU Sheng-Jiang;J. H. Hamilton;A. V. Ramayya;J. K. Hwang;J. O. Rasmussen;Y. X. Luo;CHEN Yong-Jing;LI Ming-Liang;DING Huai-Bo;U Yong-Nam;I. Y. Lee;W. C. Ma. High Spin Band Structure in 112Ru[J]. 中国物理快报, 2006, 23(2): 328-331.
1995, Vol. 12 
