6533b82dfe1ef96bd1290a40
RESEARCH PRODUCT
Beta decay of the exotic Tz = - 2, $^{56}$Zn nucleus and half-life of various proton-rich Tz = -1 nuclei
B. RubioE. GaniogluW. GelletlyH. C. KozerLucia PopescuF. MolinaL. KucukT. Kurtukian-nietoB. BlankA. M. RogersJ. C. ThomasS. E.a. OrrigoTakashi SuzukiG. SusoyO. KamalouJ. GiovinazzoM. GerbauxY. FujitaAlejandro AlgoraHisanori FujitaAtsushi TamiiB. BilgierS. GrévyP. AscherC. StodelR. B. CakirliJ. AgramuntL. Caceressubject
PhysicsNuclear physics23.40.-s 23.50.+z 21.10.-k 27.40.+zmedicine.anatomical_structureProtonmedicineGeneral Physics and AstronomyHalf-life[PHYS.NEXP]Physics [physics]/Nuclear Experiment [nucl-ex]7. Clean energyBeta decayNucleusdescription
Expérience GANIL/LISE3/EXOGAM; International audience; Preliminary results of an experimental study of the beta -decay of the exotic T$_z$ = - 2, $^{56}$Zn nucleus and other proton-rich T$_z$ = -1 nuclei are presented. The ions were produced at GANIL using fragmentation reactions, separated by the LISE3 spectrometer and implanted in a double-sided silicon strip detector surrounded by Ge detectors. The half-lives of $^{56}$Zn and four T$_z$ = -1 nuclei in the fp-shell have been measured. While the decay of the T$_z$ = -1 nuclei proceeds essentially by -delayed gamma emission, in the case of $^{56}$Zn -delayed proton emission is also observed. Moreover, the exotic -delayed gamma-proton decay is seen for the first time. The information from the decay study has been used to determine the absolute Fermi and Gamow-Teller transition strengths. The results for $^{56}$Zn have been compared with the mirror Charge Exchange process, the ($^3$He,t) reaction on the T$_z$ = +2, $^{56}$Fe target nucleus. This comparison is important for understanding the $^{56}$Zn decay data.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2014-01-01 |