Nuclear Structure and Shape Evolution of Nd Isotopes

Abstract

In this work, we have analyzed the structural properties of even-even 126-188Nd60 isotopes. For this we have used axially deformed Relativistic Mean Field (RMF) model with PK1 and NL-SH parametrization. In structural properties, We have estimated and analyzed binding energy per nucleon (B.E./A), two neutron separation energy (S2n), differential variation of two neutron separation energy (dS2n), quadrupole deformation parameter (β2), root mean square nuclear charge radius (rch), neutron skin thickness (rnp) and single particle energy (SPE) levels of Nd isotopes. Some bulk properties are also compared with experimentally accessible results and with results of Finite Range Droplet Model (FRDM). To understand the shape evolution around N = 92, the variation of the potential energy curves (PECs) with quadrupole deformation parameter are also investigated. From all the investigations, We observe some sign of stability at N = 92 and shape transitions around it.