Low-Lying Groud State Properties Of The Structure Of Three Odd Mass Isotopes Of Mercury (197, 201, 203hg ) Based On The Calculation Of Particle Tri-Axial Rotor Model

Abstract

In this work, we have calculated and plotted the low-lying state properties of the structure of three odd mass isotopes of mercury (197, 201, 203Hg) with negative and positive parity with their double and single transition structure. The research was performed as a thesis for the completion of MSc degree in physics, under the title of low-lying state properties of the structure of three odd mass isotopes of mercury (197,201,203Hg) based on the calculation of particle tri-axial rotor model for odd isotopes of Mercury. The calculation was based on the method Particle Triaxial Rotor Model, that involves used of fortran77 based computational codes called GAMPYN, ASYRMO and PROBAMO. At low-lying state energy, the PTRM calculations were used for description of the level energy, gamma transition energy and intensity branching ratio. It is of great interest to compare the experimental and PTRM calculated values of the low-lying state properties of three odd mass isotopes of mercury, for the purpose of checking the quality of the calculation. We applied the theoretical framework of the description of the low-lying states properties on the calculation of particle tri axial rotor model to check the nuclear structure of these three odd-A isotopes of mercury. It is observed that the PTRM calculation results are in a good agreement with that of experimental data.