The properties of the excited states of 76Kr, populated in the decay of 76Rb produced at ISOLDE isotopic separator, have been investigated by using K-conversion electron, γ -ray, and γ -γ coincidence measurements. The lifetimes of several levels have been measured by means of the advanced time-delayed βγγ(t) method. The identification of 19 new levels and 55 transitions and the information deduced on spin and/or parity of the observed states from K-conversion coefficients, log ft values and decay properties have led to an improved knowledge of the level scheme. In particular, six 1− states have been definitely identified and J π = 2− has been assigned to the 2227 keV level, on which a band proposed to have negative-parity and even-spin had been previously observed. The strengths of the E0 and E2 transitions deexciting the 0+2 and 0+3 states (the latter is here identified with the state at 1598 keV) have been measured. The experimental data concerning the 0+2 state have been analyzed in a simple two states mixing model and in the framework of the proton-neutron interacting boson model.
Spectroscopy and lifetime measurements of states in Kr 76populated in Rb 76 decay / A. Giannatiempo;A.Perego; P.Sona; A.Nannini; H.Mach; B.Fogelberg; M.Borge; O.Tengblad; L. Fraile; A.Aas ; K.Gulda. - In: PHYSICAL REVIEW. C, NUCLEAR PHYSICS. - ISSN 0556-2813. - STAMPA. - 72:(2005), pp. 044308-1-044308-15. [10.1103/PhysRevC.72.044308]
Spectroscopy and lifetime measurements of states in Kr 76populated in Rb 76 decay
GIANNATIEMPO, ANGELA;PEREGO, ANDREA;SONA, PIETRO;A. Nannini;
2005
Abstract
The properties of the excited states of 76Kr, populated in the decay of 76Rb produced at ISOLDE isotopic separator, have been investigated by using K-conversion electron, γ -ray, and γ -γ coincidence measurements. The lifetimes of several levels have been measured by means of the advanced time-delayed βγγ(t) method. The identification of 19 new levels and 55 transitions and the information deduced on spin and/or parity of the observed states from K-conversion coefficients, log ft values and decay properties have led to an improved knowledge of the level scheme. In particular, six 1− states have been definitely identified and J π = 2− has been assigned to the 2227 keV level, on which a band proposed to have negative-parity and even-spin had been previously observed. The strengths of the E0 and E2 transitions deexciting the 0+2 and 0+3 states (the latter is here identified with the state at 1598 keV) have been measured. The experimental data concerning the 0+2 state have been analyzed in a simple two states mixing model and in the framework of the proton-neutron interacting boson model.
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