C. S. Palshetkar | Researchain

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Featured researches published by C. S. Palshetkar.

Physical Review C | 2015

Reduced quasifission competition in fusion reactions forming neutron-rich heavy elements

K. Hammerton; Z. Kohley; David Hinde; Mahananda Dasgupta; A. Wakhle; E. Williams; V. E. Oberacker; A. S. Umar; I. P. Carter; K. J. Cook; J. Greene; D. Y. Jeung; D. H. Luong; S. D. McNeil; C. S. Palshetkar; D. C. Rafferty; C. Simenel; K. Stiefel

This work is supported by the National Science Foundation under Grants No. PHY-1102511 and No. IIA-1341088, by the U.S. Department of Energy under Grant No. DE-FG02- 96ER40975 with Vanderbilt University, and the Australian Research Council Grants No. DP110102858, No. DP140101337, No. FL110100098, No. DP130101569, No. FT120100760, and No. DE140100784. This material is based upon work supported by the Department of Energy National Nuclear Security Administration under Award No. DE-NA0000979. This material is based upon work supported by the U.S. Department of Energy, Office of Science, Office of Nuclear Physics, under Contract No. DE-AC02-06CH11357. This research used resources of ANL’s ATLAS facility, which is a DOE Office of Science User Facility.

Physical Review Letters | 2018

Exploring Zeptosecond Quantum Equilibration Dynamics: From Deep-Inelastic to Fusion-Fission Outcomes in Ni58+Ni60 Reactions

E. Williams; K. Sekizawa; David Hinde; C. Simenel; Mahananda Dasgupta; I. P. Carter; K. J. Cook; D. Y. Jeung; S. D. McNeil; C. S. Palshetkar; D. C. Rafferty; A. Wakhle

Energy dissipative processes play a key role in how quantum many-body systems dynamically evolve toward equilibrium. In closed quantum systems, such processes are attributed to the transfer of energy from collective motion to single-particle degrees of freedom; however, the quantum many-body dynamics of this evolutionary process is poorly understood. To explore energy dissipative phenomena and equilibration dynamics in one such system, an experimental investigation of deep-inelastic and fusion-fission outcomes in the ^{58}Ni+^{60}Ni reaction has been carried out. Experimental outcomes have been compared to theoretical predictions using time dependent Hartree-Fock and time dependent random phase approximation approaches, which, respectively, incorporate one-body energy dissipation and fluctuations. Excellent quantitative agreement has been found between experiment and calculations, indicating that microscopic models incorporating one-body dissipation and fluctuations provide a potential tool for exploring dissipation in low-energy heavy ion collisions.

Physical Review C | 2015

Observation of mass-asymmetric fission of mercury nuclei in heavy ion fusion

E. Prasad; David Hinde; E. Williams; Mahananda Dasgupta; I. P. Carter; K. J. Cook; D. Y. Jeung; D. H. Luong; S. D. McNeil; C. S. Palshetkar; D. C. Rafferty; C. Simenel; A. Wakhle; J. Khuyagbaatar; Ch. E. Düllmann; B. Lommel; B. Kindler

Physical Review C | 2017

Fusion and quasifission studies for the Ca40+W186,Os192 reactions

E. Prasad; David Hinde; E. Williams; Mahananda Dasgupta; I. P. Carter; K. J. Cook; D. Y. Jeung; D. H. Luong; C. S. Palshetkar; D. C. Rafferty; C. Simenel; A. Wakhle

Physical Review Letters | 2017

Evidence for the Role of Proton Shell Closure in Quasifission Reactions from X-Ray Fluorescence of Mass-Identified Fragments

M. Morjean; David Hinde; C. Simenel; D. Y. Jeung; M. Airiau; K. J. Cook; Mahananda Dasgupta; A. Drouart; D. Jacquet; Sunil Kalkal; C. S. Palshetkar; E. Prasad; D. C. Rafferty; E. C. Simpson; L. Tassan-Got; K. Vo-Phuoc; E. Williams

EPJ Web of Conferences | 2016

Systematic study of quasifission characteristics and timescales in heavy element formation reactions

David Hinde; E. Williams; G. Mohanto; C. Simenel; Mahananda Dasgupta; A. Wakhle; I. P. Carter; K. J. Cook; D. Y. Jeung; D. H. Luong; C. S. Palshetkar; E. Prasad; D. C. Rafferty; R. du Rietz; E. C. Simpson

EPJ Web of Conferences | 2016

Nuclear structure effects in quasifission – understanding the formation of the heaviest elements

David Hinde; E. Williams; G. Mohanto; C. Simenel; D. Y. Jeung; Mahananda Dasgupta; E. Prasad; A. Wakhle; K. Vo-Phuoc; I. P. Carter; K. J. Cook; D. H. Luong; C. S. Palshetkar; D. C. Rafferty; E. C. Simpson

Physical Review C | 2018

Fission cross sections as a probe of fusion dynamics at high angular momentum

C. S. Palshetkar; David Hinde; Mahananda Dasgupta; E. Williams; I. P. Carter; K. J. Cook; D. Y. Jeung; D. H. Luong; S. D. McNeil; D. C. Rafferty; A. Wakhle

Physical Review C | 2018

Interplay of spherical closed shells and N/Z asymmetry in quasifission dynamics

G. Mohanto; David Hinde; K. Banerjee; Mahananda Dasgupta; D. Y. Jeung; C. Simenel; E. C. Simpson; A. Wakhle; E. Williams; I. P. Carter; K. J. Cook; D. H. Luong; C. S. Palshetkar; D. C. Rafferty

EPJ Web of Conferences | 2017

Investigating fusion dynamics at high angular momentum via fission cross sections

C. S. Palshetkar; David Hinde; E. Williams; Mahananda Dasgupta; K. J. Cook; A. Wakhle; D. Y. Jeung; D. C. Rafferty; S. D. McNeil; I. P. Carter; D. H. Luong

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