The ground state nuclear structure properties of the proton rich even-even tellurium isotopes are studied by using Gogny energy density functional within the framework of Hartree-Fock-Bogoliubov (HFB) method. The HFB equations are solved by using the axial cylindrical transformed deformed harmonic oscillator basis. The full parameterization of Gogny energy density functional is employed in the present study. The evolution of the neutron density distributions with an increase in neutron number is studied and emergence of various nuclear structure phenomena is investigated. Besides this, the ground state nuclear structure properties such as nuclear multipole moments, deformation parameters, binding energies, pairing energies, root mean square radii and charge radii are obtained for the even-even proton-rich tellurium isotopes. The theoretical results on the nuclear ground state properties are compared with the available experimental data and good agreement is found.

中文翻译：

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具有Gogny能量密度泛函的富含质子的偶数碲同位素的核结构性质的系统研究

在Hartree-Fock-Bogoliubov（HFB）方法的框架内，利用Gogny能量密度泛函研究了富含质子的均匀偶数碲同位素的基态核结构性质。通过使用轴向圆柱变换变形谐波振荡器基础来求解HFB方程。本研究采用了Gogny能量密度泛函的完整参数。研究了中子密度分布随中子数增加的演化，并研究了各种核结构现象的出现。除此之外，对于均匀甚至富含质子的碲同位素，可以获得基态核结构特性，例如核多极矩，形变参数，结合能，配对能，均方根半径和电荷半径。