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Author Adzic, P. R. ♦ Zupancic, M. T. ♦ Vukanovic, R. B. ♦ Anicin, I. V. ♦ Skoro, G. P. ♦ Kukoc, A. H. ♦ Lindroos, M. ♦ Tengblad, O. ♦ Veskovic, M.
Source United States Department of Energy Office of Scientific and Technical Information
Content type Text
Language English
Subject Keyword NUCLEAR PHYSICS AND RADIATION PHYSICS ♦ RUBIDIUM 76 ♦ ENERGY LEVELS ♦ STRONTIUM 76 ♦ BETA-PLUS DECAY ♦ COINCIDENCE METHODS ♦ GAMMA CASCADES ♦ GAMMA SPECTROSCOPY ♦ ALKALINE EARTH ISOTOPES ♦ BETA DECAY ♦ BETA DECAY RADIOISOTOPES ♦ BETA-PLUS DECAY RADIOISOTOPES ♦ COUNTING TECHNIQUES ♦ DECAY ♦ ELECTRON CAPTURE RADIOISOTOPES ♦ EVEN-EVEN NUCLEI ♦ INTERMEDIATE MASS NUCLEI ♦ ISOMERIC TRANSITION ISOTOPES ♦ ISOTOPES ♦ MICROSEC LIVING RADIOISOTOPES ♦ MINUTES LIVING RADIOISOTOPES ♦ NUCLEAR CASCADES ♦ NUCLEAR DECAY ♦ NUCLEI ♦ ODD-ODD NUCLEI ♦ RADIOISOTOPES ♦ RUBIDIUM ISO ♦ SECONDS LIVING RADIOISOTOPES ♦ SPECTROSCOPY ♦ STRONTIUM ISOTOPES ♦ Ground-State Radioactivity- (1992-) ♦ Nuclear Mass Ranges- A=59-89- (1992-)
Abstract The main goal of this work is to establish the nuclear decay scheme of [sup 76]Sr and energy levels of its doubly odd daughter nucleus [sup 76]Rb. The extremely neutron deficient nucleus [sup 76]Sr lying at the [ital N]=[ital Z] (=38) line with half-life of 8.9 s was produced in spallation reactions of 600 MeV protons from the CERN Synchrocyclotron (SC) with a Nb multifoil target in conjunction with a W surface ionization source at the ISOLDE facility. The [gamma]-spectroscopy measurements have been performed with two Ge detectors which were positioned at about [plus minus]30[degree] respectively downstream to the [sup 76]Sr beam. The obtained singles and coincidence [gamma] spectra were used to determine energies and intensities of [gamma] lines assigned to the decay of [sup 76]Sr and to establish some details of the nuclear level configuration of its daughter nucleus [sup 76]Rb up to 1000 keV.
ISSN 05562813
Educational Use Research
Learning Resource Type Article
Publisher Date 1993-12-01
Publisher Place United States
Journal Physical Review, C
Volume Number 48
Issue Number 6


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