D. Logan scite author profile

Correlations have been studied between evaporative H/He emission and fissionlike products for the reactions 333 MeV Ar+ ' Sn, ""Sm, and ' Au. Fission products were detected at 60 and 320 in coincidence with H and He at 120 in plane and 27 and 60' out of plane. The coincidence energy spectra of H and He are not consistent with evaporation from the moving fragments. An analysis has been made with the assumption of complete energy equilibration in the particle emission (i.e. , evaporation) prior to scission. The rather large data set is essentially consistent with this assumption. From the spectral shapes one can deduce level density parameters and barriers to evaporation. Values inferred for the Fermi gas level density parameters are similar to those inferred from experiments at much lower energies. Values deduced for the emission barriers are much smaller than those from systematics of fusion barriers. The observed cross sections for fission and 'H and He evaporation are not easily reconciled with statistical model calculations. In particular, the proton evaporation seems to compete more favorably with fission and He evaporation than implied by phase space considerations alone. NUCLEAR REACTIONS " Sn, ' Sm, ' Au( Ar; H/He, fission), E =333 MeV, measured energy and angular correlations of evaporative H/He in coincidence with fission. Values deduced for emission barriers, temperatures and J",for the emitter. Comparisons made to evaporation calculations.

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Need for new physics in statistical models of nuclear de-excitation

et al. 1987

Phys. Rev. C

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D. Logan

Energy equilibration in composite nuclei at high energy and spin: Correlations between evaporativeH1,

Need for new physics in statistical models of nuclear de-excitation

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