TY - GEN
T1 - Application of Calorimetric Low-Temperature Detectors for the Investigation of Z-Yield Distributions of Fission Fragments
AU - Dubey, Santwana
AU - Echler, Artur
AU - Egelhof, Peter
AU - Grabitz, Patrick
AU - Mutterer, Manfred
AU - Lauterfeld, Werner
AU - Stolte, Stefan
AU - Blanc, Aurelien
AU - Köster, Ulli
AU - Kraft-Bermuth, Saskia
AU - Scholz, Pascal
AU - Bishop, Shawn
AU - Gomez, Jose
AU - Gönnenwein, Friedrich
N1 - Publisher Copyright:
© The Authors, published by EDP Sciences.
PY - 2018/11/14
Y1 - 2018/11/14
N2 - 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 sources 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 new detector concept of a thermal detector 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 in the mass 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 light-mass group of 241Pu. Towards mass-symmetry, known Z-yield data were supplemented in the range A = 110 to 113 for 241Pu and 239Pu. Extended data sets were cumulated for A = 92 and 96 due to a recent request from studies on the reactor anti-neutrino spectrum. Furthermore, considerable progress was achieved to extend isotopic yield measurements up to the heavy-mass region, hardly accessible until now.
AB - 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 sources 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 new detector concept of a thermal detector 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 in the mass 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 light-mass group of 241Pu. Towards mass-symmetry, known Z-yield data were supplemented in the range A = 110 to 113 for 241Pu and 239Pu. Extended data sets were cumulated for A = 92 and 96 due to a recent request from studies on the reactor anti-neutrino spectrum. Furthermore, considerable progress was achieved to extend isotopic yield measurements up to the heavy-mass region, hardly accessible until now.
UR - http://www.scopus.com/inward/record.url?scp=85057873795&partnerID=8YFLogxK
U2 - 10.1051/epjconf/201819304002
DO - 10.1051/epjconf/201819304002
M3 - Conference contribution
AN - SCOPUS:85057873795
T3 - EPJ Web of Conferences
BT - 6th Workshop on Nuclear Fission and Spectroscopy of Neutron-Rich Nuclei, FISSION 2017
A2 - Koster, Ulli
PB - EDP Sciences
T2 - 6th Workshop on Nuclear Fission and Spectroscopy of Neutron-Rich Nuclei, FISSION 2017
Y2 - 20 March 2017 through 24 March 2017
ER -