2020
DOI: 10.1142/s0217732320502430
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Microscopic study of nuclear structure of odd-odd 128138I nuclei within the framework of projected shell model for positive- and negative-parity states

Abstract: We have done the microscopic study of neutron-rich odd-odd iodine isotopes within the framework of projected shell model. Odd-odd nuclei are the best candidates for studying possible structure variations away from the valley of stability. We used the projected shell model, in which the deformed Nilsson single-particle states are being used for the construction of model basis. We studied the band properties of odd-odd I[Formula: see text](Z [Formula: see text] 53) isotopes with neutron numbers N [Formula: see t… Show more

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Cited by 3 publications
(1 citation statement)
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“…These studies aim to address all these properties, which are: shape evolution, shape coexistence, quadrupole deformation parameter β 2 , single-particle energy levels, the binding energy per nucleon, pairing energy, one-neutron separation energy, two-neutron separation energy, nuclear charge radius, neutron rms radius, proton rms radius, and neutron skin thickness. In our previous paper [14], we have done microscopic studies of the nuclear structure of 128−138 I nuclei within the framework of the projected shell model. Iodine is a potential candidate after shell closure Z=50, having an atomic number of Z=53.…”
Section: Introductionmentioning
confidence: 99%
“…These studies aim to address all these properties, which are: shape evolution, shape coexistence, quadrupole deformation parameter β 2 , single-particle energy levels, the binding energy per nucleon, pairing energy, one-neutron separation energy, two-neutron separation energy, nuclear charge radius, neutron rms radius, proton rms radius, and neutron skin thickness. In our previous paper [14], we have done microscopic studies of the nuclear structure of 128−138 I nuclei within the framework of the projected shell model. Iodine is a potential candidate after shell closure Z=50, having an atomic number of Z=53.…”
Section: Introductionmentioning
confidence: 99%