Shell Model Calculations of Some Titanium Isotopes

Abstract

The nuclear shell model has been employed to compute the binding energies , low-lying excitation states electric quadrupole transition rates of titanium isotopes in fp-shell region. The model space includes all configurations of nucleons in the 0f7/2 1p3/2 0f5/2 and 1p1/2 orbits, as well as the shell model describes well the energies of the intruder states. Calculations have been performed with effective interactions GXFP1 , FPD6 and KB3G in full fp space and the shell model code OXSBASH for Windows were employed . The computed binding energies, the low-lying states and electric quadrupole transition rates were in reasonably agreement with experimental data for the isotopes 42,44,46,48Ti .