Application of Calorimetric Low Temperatur Detectors for investigation of Z-distributions of fission fragments
The investigation of mass, charge and energy distributions of fragments from thermal neutron induced fission is of high interest for our understanding of the fission process. We propose to use the new detector technology of calorimetric low temperature detectors for the investigation of nuclear charge distributions by applying the well-known degrader method at LOHENGRIN. Due to its excellent performance with respect to energy resolution and energy linearity this detector technology has the potential to substantially improve the experimental conditions as compared to earlier measurements, and to give access to the mass region of symmetric fission and the heavy mass group. The present proposal covers detailed isotopic fission yield measurements of the masses dominating the heavy mass peak (A=128 to A=152), complementary light masses for the validation of the method plus exploratory measurements in the valley of symmetry.
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P. Egelhof; BISHOP Shawn; BLANC Aurelien; DUBEY Santwana; ECHLER Artur; FAUST Herbert; GOENNENWEIN Friedrich; GRABITZ Patrick; KOESTER Ulli; KRAFT-BERMUTH Saskia; Boon Q. Lee; MUTTERER Manfred; SCHOLZ Pascal and STOLTE Stefan. (2015). Application of Calorimetric Low Temperatur Detectors for investigation of Z-distributions of fission fragments. Institut Laue-Langevin (ILL) doi:10.5291/ILL-DATA.3-01-637
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