S. Verma
University of Delhi
16 Papers
121 Citations
S. Verma is an academic researcher from University of Delhi. The author has contributed to research in topics: Neutron & Coulomb barrier. The author has an hindex of 5, co-authored 16 publications.
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Papers
Elastic scattering and fusion cross sections for 7 Be, 7 Li + 27 Al systems
K. Kalita,S. Verma,Reeshu Singh,Jiten Das,Akhil Jhingan,N. Madhavan,S. Nath,T. Varughese,P. Sugathan,V. V. Parkar,K. Mahata,K. Ramachandran,A. K. Shrivastava,A. Chatterjee,S. Kailas,S. Barua,P. K. Basu,H. Majumdar,Mandira Sinha,Rupayan Bhattacharya,A. K. Sinha +20 more
TL;DR: In this paper, an optical model (OM) analysis of the quasi-elastic scattering data was carried out, and the fusion cross sections were derived at these energies by subtraction of the integrated transfer cross sections from the reaction cross sections obtained from the fits to quasielastic-scattering data.
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Fission hindrance studies in Pb200: Evaporation residue cross section and spin distribution measurements
Praveen Shidling,N.M. Badiger,S. Nath,R. Kumar,Akhil Jhingan,R. P. Singh,P. Sugathan,S. Muralithar,N. Madhavan,A. K. Sinha,Santanu Pal,S. Kailas,S. Verma,K. Kalita,S. K. Mandal,Reeshu Singh,B. R. Behera,K. M. Varier,M. C. Radhakrishna +18 more
TL;DR: In this article, the evaporation residue spin distributions have been measured by detecting gamma rays with 14 element BGO multiplicity filter and compared with the values predicted by a standard statistical model code.
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Relationship between and effect of inelastic excitations and transfer channels on sub-barrier fusion enhancement
Khushboo,S. K. Mandal,S. Nath,N. Madhavan,J. Gehlot,A. Jhingan,Neeraj Kumar,Tathagata Banerjee,Gurpreet Kaur,K. Rojeeta Devi,A. Banerjee,Neelam,T. Varughese,Davinder Siwal,Davinder Siwal,R. B. Garg,Ish Mukul,Mansi Saxena,S. Verma,S. Kumar,B. R. Behera,P. Verma +21 more
TL;DR: In this paper, the effects of colliding nuclei structure and the transfer channel on enhancement of sub-barrier fusion cross sections were explored, and the effect of multineutron transfer channels was observed to be significant for fusion, especially for those systems where interacting nuclei are less deformed or spherical.
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Probing nuclear dissipation via evaporation residue excitation functions for the O 16 , 18 + Pt 198 reactions
Rohit Sandal,B. R. Behera,Varinderjit Singh,Maninder Kaur,A. Kumar,Gurpreet Kaur,Padma Sharma,N. Madhavan,S. Nath,J. Gehlot,Akhil Jhingan,K. S. Golda,Hardev Singh,S. K. Mandal,S. Verma,E.V. Prasad,K. M. Varier,A. M. Vinodkumar,A. K. Saxena,Jhilam Sadhukhan,Santanu Pal +20 more
TL;DR: In this paper, the authors compared the experimental ER cross sections with predictions from the statistical model calculations of compound nuclear decay, where Kramers' fission width is used as a free parameter in order to fit the experimental data.
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Searching the reason for sub-barrier fusion enhancement through multineutron transfer channels
Khushboo,N. Madhavan,S. Nath,A. Jhingan,J. Gehlot,B. R. Behera,S. Verma,Sunil Kalkal,S. K. Mandal +8 more
TL;DR: In this article, the role of multineutron transfer channels on sub-barrier fusion enhancement was examined under the framework of coupled-channels calculations, and it was shown that up to the up to $2n$ pick-up channel was sufficient for describing the subbarrier cross sections.
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