Structural and decay properties of Z = 132, 138 superheavy nuclei

Asloob A. Rather; M. Ikram; A. A. Usmani; Bharat Kumar; S. K. Patra

doi:10.1140/epja/i2016-16372-x

EPJ

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2023 Impact factor 2.6

Hadrons and Nuclei

Eur. Phys. J. A (2016) 52: 372
https://doi.org/10.1140/epja/i2016-16372-x

Regular Article - Theoretical Physics

Structural and decay properties of Z = 132, 138 superheavy nuclei

Asloob A. Rather¹^*, M. Ikram¹, A. A. Usmani¹, Bharat Kumar²^,3 and S. K. Patra²^,3

¹ Department of Physics, Aligarh Muslim University, 202002, Aligarh, India
² Institute of Physics, 751 005, Bhubaneswar, India
³ Homi Bhabha National Institute, 400094, Mumbai, Anushakti Nagar, India

^* e-mail: asloobahmad.rs@amu.ac.in

Received: 21 October 2016
Accepted: 1 December 2016
Published online: 29 December 2016

Abstract

In this paper, we analyze the structural properties of Z = 132 and Z = 138 superheavy nuclei within the ambit of axially deformed relativistic mean-field framework with NL3^* parametrization and calculate the total binding energies, radii, quadrupole deformation parameter, separation energies, density distributions. We also investigate the phenomenon of shape coexistence by performing the calculations for prolate, oblate and spherical configurations. For clear presentation of nucleon distributions, the two-dimensional contour representation of individual nucleon density and total matter density has been made. Further, a competition between possible decay modes such as $\alpha$ -decay, $\beta$ -decay and spontaneous fission of the isotopic chain of superheavy nuclei with Z = 132 within the range $312 \le A \le 392$ and $318 \le A \le 398$ for Z = 138 is systematically analyzed within self-consistent relativistic mean-field model. From our analysis, we inferred that the $\alpha$ -decay and spontaneous fission are the principal modes of decay in majority of the isotopes of superheavy nuclei under investigation apart from $\beta$ -decay as dominant mode of decay in ^318-322138 isotopes.