B. Cramer scite author profile

B. Cramer

5Publications

54Citation Statements Received

6Citation Statements Given

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Affiliations

Fraunhofer Institute for Telecommunications, Heinrich Hertz Institute, Astronautics Corporation of America, Oak Ridge National Laboratory

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Observation of cold scission of highly excited fissioning nuclei

et al. 1989

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The time scale of fission at initial nuclear temperatures of about 5 MeV is deduced from the number of neutrons evaporated prior to and after scission in the reactions 144 Sm and 154 Sm+ (838 MeV) 32 S. The prescission lifetime for fission with symmetric mass splits is longer than for asymmetric mass splits. For symmetric mass splits the excitation energy at scission is only about 60 MeV and independent of the initial excitation energy which is consistent with a prescission lifetime in the order of 10 ~2 0 s. PACS numbers: 25.70.Jj, 25.70.Gh, 25.85.Ge, 27.70.+q Fifty years after the discovery of nuclear fission the dynamics of the division of the nucleus into two parts of roughly equal size is still one of the most interesting processes of collective flow of nuclear matter and an ideal example of the yet unsolved nuclear many-body problem. The time scale of nuclear fission has recently been studied 1 " 4 very intensively up to nuclear temperatures of about 2.7 MeV by several groups. One method employed 1 " 3 the number of neutrons evaporated prior to scission to deduce the prescission lifetime by calculating the mean evaporation time and thus relating the prescission neutron multiplicity with an absolute time scale. A second method 4 exploited the giant-dipole-resonance y rays emitted from the composite systems produced in heavy-ion-fusion reactions. Both methods led to the conclusion that nuclear fission at temperatures up to 2.7 MeV is very slow, about a few 10 ~2 0 s. In other words, nuclear fission, or rather scission, occurs at the very end of the nuclear deexcitation chain. An exciting question, then, is whether this finding prevails also at higher excitation energies or nuclear temperatures. In the present experiment we have investigated for the first time the fission time scale of nuclei at initial temperatures of about 5 MeV or excitation energies of about 500-600 MeV in nuclei of mass close to 180. Furthermore, we have measured for the first time the time scale of fission with symmetric and asymmetric mass splits. At such high temperatures one might expect that the temperature dependence of the nuclear surface tension 5 and/or nuclear dissipation 6 could drastically influence the time scale of nuclear fission. In the following we will briefly discuss the experiment and then present the results for the number of neutrons emitted prior to and after scission, which we use to establish a relative and, with certain assumptions, absolute time scale.Targets of isotopically enriched 144 Sm and 154 Sm with thicknesses of 185 and 216 ^g/cm 2 , respectively, on carbon backings of 50 //g/cm 2 were bombarded with 838-MeV 32 S ions at the VICKSI accelerator in Berlin. Two heavy fragments were detected in coincidence with two x and y position-sensitive low-pressure multiwire chambers providing also good time resolution of about 0.2 ns. The absolute time-of-flight resolution in reference to the cyclotron frequency was 0.8 ns. The centers of these detectors were positioned to the left and right of the beam at 0i = -4...

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Saturation of the thermal energy deposited in Au and Th nuclei by Ar projectiles between 27 and 77 MeV/u

et al. 1989

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Fisslon-fragment angular distributions under extreme conditions: Following sequential to deep-inelastic collisions and complete fusion in 10Ar(10 MeV/u) + natU

Schwinn¹,

Cramer²,

Ingold³

et al. 1989

Nuclear Physics A

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The Establishment of Alloy Development Goals Important to the Commercialization of Tokamak-Based Fusion Reactors

Abdou¹,

Harkness²,

Majumdar³

et al. 1977

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Emission of complex fragments in the reaction Ar + Au at 44 and 77 A · MeV

et al. 1993

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B. Cramer

Observation of cold scission of highly excited fissioning nuclei

Saturation of the thermal energy deposited in Au and Th nuclei by Ar projectiles between 27 and 77 MeV/u

Fisslon-fragment angular distributions under extreme conditions: Following sequential to deep-inelastic collisions and complete fusion in 10Ar(10 MeV/u) + natU

The Establishment of Alloy Development Goals Important to the Commercialization of Tokamak-Based Fusion Reactors

Emission of complex fragments in the reaction Ar + Au at 44 and 77 A · MeV

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