The decay of quadrupole-octupole 1- states in 40Ca and 140Ce

Abstract

Background: Two-phonon excitations originating from the coupling of two collective one-phonon states are of great interest in nuclear structure physics. One possibility to generate low-lying E1 excitations is the coupling of quadrupole and octupole phonons. Purpose: In this work, the γ-decay behavior of candidates for the (21+ 31-)1- state in the doubly-magic nucleus 40Ca and in the heavier and semi-magic nucleus 140Ce is investigated. Methods: (γ,γ') experiments have been carried out at the High Intensity γ-ray Source (HIγS) facility in combination with the high-efficiency γ-ray spectroscopy setup γ3 consisting of HPGe and LaBr3 detectors. The setup enables the acquisition of γ-γ coincidence data and, hence, the detection of direct decay paths. Results: In addition to the known ground-state decays, for 40Ca the decay into the 3-1 state was observed, while for 140Ce the direct decays into the 2+1 and the 0+2 state were detected. The experimentally deduced transition strengths and excitation energies are compared to theoretical calculations in the framework of EDF theory plus QPM approach and systematically analyzed for N=82 isotones. In addition, negative parities for two J=1 states in 44Ca were deduced simultaneously. Conclusions: The experimental findings together with the theoretical calculations support the two-phonon character of the 1-1 excitation in the light-to-medium-mass nucleus 40Ca as well as in the stable even-even N=82 nuclei.