Subrata Kumar Biswal
Published 2017-04-11Version 1
In the present thesis, we have carried a thorough investigation of nuclear structure properties. We start our investigation from the study of the magic property of nucleus in the super -heavy region. We know the magic combination of proton and neutron in the light and medium heavy region. But in the super-heavy region, it is still unclear. We applied SEI (simple effective interaction ) and RMF (relativistic mean field ) formalism with a different parameter sets to predict the magic combinations and it turned out Z=114, 120, 126 with N=184. We have also studied theisoscalar giant monopole resonance energy of nucleus of Z=114, 120,126, with scaling and constrained method using RETF formalism. Isoscalar giant monopole resonance (ISGMR) is also known as the breathing mode. We have a developed a new constrained type calculation for the ISGMR and IVGDR. Effects of delta meson on the neutron system also discuses extensively.
Comments: PhD thesis, Homi Bhabha National Institute, Feb 2017
Dynamical Study of Multifragmentation and Related Phenomena in Heavy-Ion Collisions
Structural properties and decay modes of Z $=$ 122, 120 and 118 superheavy nuclei
Impact of hyperons on structural properties of neutron stars and hybrid stars within four-dimensional Einstein-Gauss-Bonnet gravity
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