Ústav technické a experimentální fyziky Institute of Experimental and Applied Physics

A highly efficient HPGE gamma-ray spectrometer for investigating ββ decay to excited states

NázevTitle
A highly efficient HPGE gamma-ray spectrometer for investigating ββ decay to excited statesA highly efficient HPGE gamma-ray spectrometer for investigating ββ decay to excited states
Druh výsledkuResult type
Článek v časopiseJournal article
AutořiAuthors
NI Rukhadze, VB Brudanin, C. Briancon, P. Čermák, OI Kochetov, F. Mamedov, P. Loaiza, F. Piquemal, E. Rukhadze, YA Shitov, I. Štekl, G. Warot, EA Yakushev, M. Zampaolo
DOIDOI
10.3103/S1062873813040230
Časopis / citaceJournal / citation
Bulletin of the Russian Academy of Sciences:Physics. 2013, 77(4), 379-382. ISSN 1062-8738.
RokYear
2013
JazykLanguage
eng
ScopusScopus
2-s2.0-84877756760
RIVRIV
RIV/68407700:21670/13:00214829!RIV14-MSM-21670___
ProjektProject
Příspěvek k rozšíření velké výzkumné infrastruktury evropského významuContribution of the Czech Republic to the extension of the large research infrastructure of European importance

AbstraktAbstract

A new low-background spectrometer based on a HPGe detector with a sensitive volume of 600 cm3 is developed to investigate rare nuclear processes such as resonance neutrinoless double electron capture and two-neutrino double beta decay to excited states of daughter nuclei. The spectrometer is installed at the Modane underground laboratory (France) at a depth of 4800 m w.e. The spectrometer background is measured and the spectrometer sensitivity is determined for measuring sources of double beta decay

A new low-background spectrometer based on a HPGe detector with a sensitive volume of 600 cm3 is developed to investigate rare nuclear processes such as resonance neutrinoless double electron capture and two-neutrino double beta decay to excited states of daughter nuclei. The spectrometer is installed at the Modane underground laboratory (France) at a depth of 4800 m w.e. The spectrometer background is measured and the spectrometer sensitivity is determined for measuring sources of double beta decay