In this paper, we calculate the properties of the spin polarized isospin asymmetric nuclear matter by employing the Skyrme effective interaction with two sets of parameters SKM * and SⅢ, giving the equation of the state and the radio det(1/χ)det(1/χ F) which is shown as a function of the density for several values of the asymmetry parameter β.
利用Skyrme有效相互作用 ,采用核子 -核子相互作用参数SKM 和SⅢ对自旋极化的同位旋非对称核物质的特性和状态方程进行了研究 ,讨论了非对称核物质的磁化率随密度的变化关系及其同位旋依赖性 。
The properties of the spin polarized isospin symmetric nuclear matter and neutron matter as well as their equations of state are investigated by employing the Skyrme effective interaction with four sets of parameters SKM *, SⅢ, SLy230a and SLy230b.
利用Skyrme有效相互作用对自旋极化的同位旋对称核物质和中子物质的特性进行了研究 。
The experimental data of 12 C( p,p′)(p,n ) and 40 Ca( p,p′ ) in the low energy region(≤80MeV) were analyzed using M3Y effective interaction and Halderson’s effective interaction in the theoretical frame of DWBA.
利用低能区(不大于80MeV)中的12C(p,p′),12C(p,n)及40Ca(p,p′)实验数据,在DWBA理论框架下,检验了由Halderson提出的一种新的低能区核子核子有效相互作用,分析了此种核子核子有效相互作用与M3Y核子核子有效相互作用的相似性及其差异,并采用不同方法对其张量力成分进行了修正。
A complex density-dependent and energy-dependent effective interaction(CEG) and transition densities obtained from electron scattering were used in the calculations.
采用动量空间DWBA理论,利用由电子散射实验得到的核结构信息,和低能区的密度依赖、能量依赖的复数有效相互作用对数据进行了分析。
The interacting boson model with the boson effective interaction has been used to studythe nuclear spectra.
作者曾经用相互作用玻色子模型中的玻色子有效相互作用研究核谱,本文用玻色子组态混合波函数计算三个四玻色子核的E2跃迁几率,由能量矩阵的对角化得出组态混合波函数,理论计算的结果和实验的符合程度是令人满意的,表明这种模型是成功的。
Starting from shell model configurations and effective nucleon-nucleon interactions,we proposed a microscopic approach to study the properties of high-spin states in even-even nuclei in terms of the generalized boson expansion theory.
从壳模型组态及核子-核子有效相互作用出发,借助于广义的玻色子展开方法,建立了一种研究偶偶核高自旋态的微观理论方案。