Application of Calorimetric Low-Temperature Detectors for the Investigation of Z-Yield Distributions of Fission Fragments

Santwana Dubey, Artur Echler, Peter Egelhof, Patrick Grabitz, Manfred Mutterer, Werner Lauterfeld, Stefan Stolte, Aurelien Blanc, Ulli Köster, Saskia Kraft-Bermuth, Pascal Scholz, Shawn Bishop, Jose Gomez, Friedrich Gönnenwein

Publikation: Beitrag in FachzeitschriftArtikelBegutachtung

5 Zitate (Scopus)

Abstract

In recent experiments, the new concept of calorimetric low-temperature detectors (CLTDs) was applied for the first time for the investigation of isotopic yields of fission fragments. Fragments from neutron-induced fission were mass-separated by the LOHENGRIN spectrometer at the ILL Grenoble and, after passing silicon nitride membranes used as degraders, detected in a CLTD array. The concept of a CLTD provides a fundamental advantage over conventional ionization-mediated detectors, in particular for heavier particle masses at low energies. Using fissile targets of 235U, 239Pu and 241Pu, nuclear charge separation was studied for selected masses in the region 82 ≤ A ≤ 139. For light fragments, the Z-resolution matches historically best values with conventional techniques, while for heavier masses substantial improvement was attained. We have gained first LOHENGRIN data on the isotopic yields in the range A = 91 to 112 of 241Pu(n,f). Towards mass-symmetry, known Z-yield data were extended to the range A = 110 to 113 for 239Pu(n,f). Extended data sets were cumulated for A = 92 and 96 because of a recent request from studies on the reactor antineutrino spectrum. Furthermore, considerable progress was achieved to extend isotopic yield measurements up to the heavy-mass region, hardly accessible until now.

OriginalspracheEnglisch
Seiten (von - bis)1257-1262
Seitenumfang6
FachzeitschriftJournal of Low Temperature Physics
Jahrgang193
Ausgabenummer5-6
DOIs
PublikationsstatusVeröffentlicht - 1 Dez. 2018

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