6533b7d7fe1ef96bd126780e
RESEARCH PRODUCT
Experimental study of $^{100}$Tc $\beta$ decay with total absorption $\gamma$-ray spectroscopy
V. GuadillaA. AlgoraJ.l. TainJ. AgramuntD. JordanA. Montaner-pizáS.e.a. OrrigoB. RubioE. ValenciaJ. SuhonenO. CivitareseJ. ÄYstöJ.a. BrizA. CucoanesT. EronenM. EstienneM. FallotL.m. FraileE. GaniogluW. GelletlyD. GorelovJ. HakalaA. JokinenA. KankainenV. KolhinenJ. KoponenM. LeboisT. MartinezM. MonserrateI. MooreE. NácherH. PenttiläI. PohjalainenA. PortaJ. ReinikainenM. ReponenS. Rinta-antilaK. RytkönenT. ShibaV. SonnenscheinA.a. SonzogniV. VediaA. VossJ.n. WilsonA.-a Zakari-issoufousubject
densitymolybdenum: double-beta decayexcited state: energytotal-absorption counterrandom phase approximation: quasiparticletechnetium: semileptonic decay[PHYS.NEXP]Physics [physics]/Nuclear Experiment [nucl-ex]benchmarkefficiencygamma rayground statespectrometerbranching ratio[ PHYS.NEXP ] Physics [physics]/Nuclear Experiment [nucl-ex]numerical calculationsphononrutheniumMonte Carloexperimental resultsdescription
International audience; The β decay of Tc100 has been studied by using the total absorption γ-ray spectroscopy technique at the Ion Guide Isotope Separator On-Line facility in Jyväskylä. In this work the new Decay Total Absorption γ-ray Spectrometer in coincidence with a cylindrical plastic β detector has been employed. The β intensity to the ground state obtained from the analysis is in good agreement with previous high-resolution measurements. However, differences in the feeding to the first-excited state as well as weak feeding to a new level at high excitation energy have been deduced from this experiment. Theoretical calculations performed in the quasiparticle random-phase approximation framework are also reported. Comparison of these calculations with our measurement serves as a benchmark for calculations of the double β decay of Mo100.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2017-01-01 |