Title:
Role of nuclear dissipation and entrance channel mass asymmetry in pre-scission neutron multiplicity enhancement in fusion-fission reactions

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dc.contributor.authorHardev Singh
dc.contributor.authorK.S. Golda
dc.contributor.authorSantanu Pal
dc.contributor.authorRanjeet
dc.contributor.authorRohit Sandal
dc.contributor.authorBivash R. Behera
dc.contributor.authorGulzar Singh
dc.contributor.authorAkhil Jhingan
dc.contributor.authorR.P. Singh
dc.contributor.authorP. Sugathan
dc.contributor.authorM.B. Chatterjee
dc.contributor.authorS.K. Datta
dc.contributor.authorAjay Kumar
dc.contributor.authorG. Viesti
dc.contributor.authorI.M. Govil
dc.date.accessioned2026-02-07T04:49:52Z
dc.date.issued2008
dc.description.abstractPre-scission neutron multiplicities are measured for 12C+204Pb and 19F+197Au reactions at laboratory energies of 75-95 MeV for the C12 beam and 98-118 MeV for the F19 beam. The chosen projectile-target combinations in the present study lie on either side of the Businaro-Gallone mass asymmetry (αBG) and populate the Ra216 compound nucleus. The dissipation strength is deduced after comparing the experimentally measured neutron yield with the statistical model predictions which contains the nuclear viscosity as a free parameter. Present results demonstrate the combined effects of entrance channel mass asymmetry and the dissipative property of nuclear matter on the pre-scission neutron multiplicity in fusion-fission reactions. © 2008 The American Physical Society.
dc.identifier.doi10.1103/PhysRevC.78.024609
dc.identifier.issn5562813
dc.identifier.urihttps://doi.org/10.1103/PhysRevC.78.024609
dc.identifier.urihttps://dl.bhu.ac.in/bhuir/handle/123456789/19957
dc.publisherAmerican Physical Society
dc.titleRole of nuclear dissipation and entrance channel mass asymmetry in pre-scission neutron multiplicity enhancement in fusion-fission reactions
dc.typePublication
dspace.entity.typeArticle

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