Nuclear shape deformations in 485-MeV 56Fe+197Au reactions

David J. Moses; Morton Kaplan; Giovanni La Rana; Winifred E. Parker; Roy Lacey; John M. Alexander

doi:10.1103/PhysRevC.36.422

Nuclear shape deformations in 485-MeV 56Fe+197Au reactions

David J. Moses
, Morton Kaplan
, Giovanni La Rana
, Winifred E. Parker
, Roy Lacey
, John M. Alexander

Chemistry

Carnegie Mellon University
Stony Brook University

Research output: Contribution to journal › Article › peer-review

16 Scopus citations

Abstract

Detailed coincidence studies of light-charged-particle evaporation in 485-MeV Au56 reactions have recently been used to probe the features of fusion-like fission and deeply inelastic reaction mechanisms. We summarize here the average statistical properties which characterize the several identified groups of hot nuclear emitters. These properties are derived from comparisons of observed He4/1H energy spectra and angular distributions with model calculations. The results demonstrate remarkably low effective evaporation barriers for the very heavy composite system produced here, consistent with the trends found previously for much lighter systems.

Original language	English
Pages (from-to)	422-424
Number of pages	3
Journal	Physical Review C - Nuclear Physics
Volume	36
Issue number	1
DOIs	https://doi.org/10.1103/PhysRevC.36.422
State	Published - 1987

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10.1103/PhysRevC.36.422

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title = "Nuclear shape deformations in 485-MeV 56Fe+197Au reactions",

abstract = "Detailed coincidence studies of light-charged-particle evaporation in 485-MeV Au56 reactions have recently been used to probe the features of fusion-like fission and deeply inelastic reaction mechanisms. We summarize here the average statistical properties which characterize the several identified groups of hot nuclear emitters. These properties are derived from comparisons of observed He4/1H energy spectra and angular distributions with model calculations. The results demonstrate remarkably low effective evaporation barriers for the very heavy composite system produced here, consistent with the trends found previously for much lighter systems.",

author = "Moses, \{David J.\} and Morton Kaplan and \{La Rana\}, Giovanni and Parker, \{Winifred E.\} and Roy Lacey and Alexander, \{John M.\}",

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AU - Moses, David J.

AU - Kaplan, Morton

AU - La Rana, Giovanni

AU - Parker, Winifred E.

AU - Lacey, Roy

AU - Alexander, John M.

PY - 1987

Y1 - 1987

N2 - Detailed coincidence studies of light-charged-particle evaporation in 485-MeV Au56 reactions have recently been used to probe the features of fusion-like fission and deeply inelastic reaction mechanisms. We summarize here the average statistical properties which characterize the several identified groups of hot nuclear emitters. These properties are derived from comparisons of observed He4/1H energy spectra and angular distributions with model calculations. The results demonstrate remarkably low effective evaporation barriers for the very heavy composite system produced here, consistent with the trends found previously for much lighter systems.

AB - Detailed coincidence studies of light-charged-particle evaporation in 485-MeV Au56 reactions have recently been used to probe the features of fusion-like fission and deeply inelastic reaction mechanisms. We summarize here the average statistical properties which characterize the several identified groups of hot nuclear emitters. These properties are derived from comparisons of observed He4/1H energy spectra and angular distributions with model calculations. The results demonstrate remarkably low effective evaporation barriers for the very heavy composite system produced here, consistent with the trends found previously for much lighter systems.

UR - https://www.scopus.com/pages/publications/0040212064

U2 - 10.1103/PhysRevC.36.422

DO - 10.1103/PhysRevC.36.422

M3 - Article

AN - SCOPUS:0040212064

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SP - 422

EP - 424

JO - Physical Review C - Nuclear Physics

JF - Physical Review C - Nuclear Physics

IS - 1

ER -

Nuclear shape deformations in 485-MeV 56Fe+197Au reactions

Abstract

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