David J. Moses scite author profile

David J. Moses

2Publications

39Citation Statements Received

74Citation Statements Given

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Carnegie Mellon University, Bhabha Atomic Research Centre, Stony Brook University

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Mechanisms for emission of4He in the reactions of 334 MeV40Ar with238U

et al. 1984

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Emission of ~He in the reaction 334MeV 4~ has been studied by triple coincidence measurements that allow the separate identification of fusion fission and sequential fission. For the 4He evaporative spectra from fusion fission the composite system is shown to be the predominant contributor; whereas, for sequential fission the dominant emission is from the fragments. This result demonstrates a correlation between evaporative emission probability and lifetime expectancy of the composite system. To account for the observed 4He spectra two other mechanisms are necessary in addition to nuclear evaporation. At forward angles, the 4He spectra from both fusion fission and sequential fission exhibit higher intensities and larger energies than those expected from purely evaporative processes. This forward-peaked component must be related to a very rapid or pre-thermalization stage of the reaction. At backward angles yet another component is observed for fusion fission. As it is sensitive to the fragment masses but does not carry the kinematic shift characteristic of their full acceleration, this component must originate near to the time of scission. The average 4He energy for this component is approximately 17 MeV (c.m.), and its intensity is correlated with a plane perpendicular to the fission fragment separation axis. These signatures are similar to those for long range alpha particle emission in low energy fission. Alpha particles evaporated from the composite nuclei in fusion-fission reactions are shown to be preferentially associated with fission events which result in the more symmetric masses. This result is consistent with the notion that mass asymmetric fission is a faster process than symmetric fission. Such a correlation between mass asymmetry and lifetime is an essential part of the "fast fission" or "quasifission" idea, which has attracted much current attention.

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Clues to the shapes of very hot nuclei: Calculated patterns for evaporative emission from deformed nuclei

et al. 1986

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David J. Moses

Mechanisms for emission of4He in the reactions of 334 MeV40Ar with238U

Clues to the shapes of very hot nuclei: Calculated patterns for evaporative emission from deformed nuclei

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