Observation of multiple doubly degenerate bands in 195Tl | Zendy

T. Roy | Zendy; G. Mukherjee | Zendy; Md. A. Asgar | Zendy; S. Bhattacharyya | Zendy; S. Bhattacharya | Zendy; C. Bhattacharya | Zendy; T. K. Ghosh | Zendy; K. Banerjee | Zendy; Samir Kundu | Zendy; T. K. Rana | Zendy; Pratap Roy | Zendy; R. Pandey | Zendy; J. K. Meena | Zendy; A. Dhal | Zendy; R. Palit | Zendy; S. Saha | Zendy; J. Sethi | Zendy; Shital Thakur | Zendy; B. S. Naidu | Zendy; S.V. Jadav | Zendy; R. Dhonti | Zendy; H. Pai | Zendy; A. Goswami | Zendy

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Observation of multiple doubly degenerate bands in 195Tl

Author(s) -

T. Roy,

G. Mukherjee,

Md. A. Asgar,

S. Bhattacharyya,

S. Bhattacharya,

C. Bhattacharya,

T. K. Ghosh,

K. Banerjee,

Samir Kundu,

T. K. Rana,

Pratap Roy,

R. Pandey,

J. K. Meena,

A. Dhal,

R. Palit,

S. Saha,

J. Sethi,

Shital Thakur,

B. S. Naidu,

S.V. Jadav,

R. Dhonti,

H. Pai,

A. Goswami

Publication year - 2018

Publication title -

physics letters b

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 2.093

H-Index - 283

eISSN - 1873-2445

pISSN - 0370-2693

DOI - 10.1016/j.physletb.2018.06.033

Subject(s) - physics , nucleus , degenerate energy levels , atomic physics , excitation , spin (aerodynamics) , neutron , beam energy , fusion , nuclear physics , beam (structure) , quantum mechanics , optics , linguistics , philosophy , biology , microbiology and biotechnology , thermodynamics

The High-spin states in 195Tl, populated through the 185,187Re(13C, xn) fusion evaporation reaction at the beam energy of 75 MeV, were studied using the Indian National Gamma Array (INGA). More than 50 new γ transitions have been placed in the proposed level scheme which is extended up to the excitation energy of ≈ 5.6 MeV and spin = 22.5 ħ . Two pairs of degenerate bands based on two different quasi-particle configurations have been identified in this nucleus indicating the first observation of such bands in an odd-A nucleus in A ∼ 190 region and signify the first evidence of multiple chiral bands in a nucleus in this region. The total Routhian surface calculations predict triaxial shapes for both the configurations and thereby, support the experimental observation. The importance of multiple neutron holes in the i 13 / 2 orbital and the stability of shapes for these two configurations have been discussed.

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