Q. Ducasse scite author profile

The γ -ray strength function in the quasicontinuum has been measured for [231][232][233] 232,233 Pa, and 237-239 U using the Oslo method. All eight nuclei show a pronounced increase in γ strength at ω SR ≈ 2.4 MeV, which is interpreted as the low-energy M1 scissors resonance (SR). The total strength is found to be B SR = 9-11 μ 2 N when integrated over the 1-4 MeV γ -energy region. The SR displays a double-hump structure that is theoretically not understood. Our results are compared with data from (γ , γ ) experiments and theoretical sum-rule estimates for a nuclear rigid-body moment of inertia.

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Constant-temperature level densities in the quasicontinuum of Th and U isotopes

Guttormsen

Jurado

Wilson

et al. 2013

Phys. Rev. C

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Particle-γ coincidences have been measured to obtain γ -ray spectra as a function of excitation energy for [231][232][233] Th and 237-239 U. The level densities, which were extracted using the Oslo method, show a constant temperature behavior. The isotopes display very similar temperatures in the quasicontinuum, however, the evenodd isotopes reveal a constant entropy increase S compared to their even-even neighbors. The entropy excess depends on available orbitals for the last unpaired valence neutron of the heated nuclear system. Also, experimental microcanonical temperature and heat capacity have been extracted. Several poles in the heat capacity curve support the idea that an almost continuous melting of Cooper pairs is responsible for the constant-temperature behavior.

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Q. Ducasse

Scissors resonance in the quasicontinuum of Th, Pa, and U isotopes

Constant-temperature level densities in the quasicontinuum of Th and U isotopes

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