Abstract
In the present study the back-bending phenomena of moment of inertia are described at high-spin yrast bands of even-even Te110-118 isotopes. The Fermi energy, square of rotational frequency and the moment of inertia of the nuclei have been calculated from available experimental data. An interesting nuclear feature emerging from this study concerns the evolution of the moment of inertia, and the yrast line indicates about the nuclear shape. Fermi energy and the moment of inertia as a function of even neutron number of Te110-118 isotopes have been studied systematically. The moment of inertia as a function of the square of the rotational energy for even neutrons N = 58 to 66 in Te isotopes indicates the nature of back-bending properties. The investigation of back-bending phenomena in ordinary space for even-even Te isotopes with even neutron N = 58 to 66 are carried out and compared with gauge space.