Browsing by Author "Md Anser"
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PublicationArticle Collective and non-collective states in(Institute of Physics, 2025) A. K. Gupta; Hariprakash P. Sharma; A. K. Rana; Md Anser; Ishika Sharma; S. S. Tiwary; Saikat Chakraborty; C. Majumder; Anupriya Sharma; Anand Pandey; Anuj; S. K. Chamoli; Sanjeev Suresh Kumar; Kaushik T. Katre; Sivaramakrishnan Muralithar; R. P. Singh; Yashraj; Indu Bala; Arunita Mukherjee; Sutanu Bhattacharya; Tarkeshwar Trivedi; Nikhil Mozumdar; Pratyay Banerjee; Subodh; Anil KumarThe high spin states of 136Ce (Z = 58) were investigated via 124Sn(16O, 4n)136Ce fusion evaporation reaction at MeV. The γ-γ coincidence technique is used for placing the γ-transitions in the level scheme. The spin and parity of the levels have been assigned on the basis of results of the angular correlation and linear polarisation measurements, respectively. The bands based on the yrast 10+ isomeric state and the non-yrast 10+ state have been established. The structures of these bands are also compared with the band structures of the neighbouring nuclei. © © 2025 EPLA. All rights, including for text and data mining, AI training, and similar technologies, are reserved.PublicationArticle Study of nuclear structure in 122Ba from DCO Ratio and Polarization measurements(Springer, 2025) Bharti Rohila; Ashok S.k. Kumar; Diwanshu; Chetan Kumar Sharma; Amit; Subodh; Honey Arora; Mehak Narula; Nabeel Salim; Paramasivan Arumugam; Md Anser; Hariprakash P. Sharma; Anand Pandey; S. K. Chamoli; Kaushik T. Katre; Yashraj; R. P. Singh; Sivaramakrishnan MuralitharHigh-spin states in 122Ba have been investigated in the 93Nb(32S, p2n) reaction by in-beam γ-ray spectroscopy. Spin and parity have been determined for few bands using the DCO ratio and polarization measurements. The cranked shell model calculations have been performed to reproduce the band crossing frequencies and alignment gain in order to assign the configuration. © The Author(s), under exclusive licence to Società Italiana di Fisica and Springer-Verlag GmbH Germany, part of Springer Nature 2025.