First evidence for the J>1 components of the pygmy dipole resonance in neutron-rich nuclei
Abstract
Gamma (γ) decay shapes the synthesis of heavy elements in neutron-rich nuclear environments of neutron star mergers, supplying the Universe with heavy elements. The low-energy pygmy dipole resonance (PDR) influences nuclear reaction rates of the rapid nucleosynthesis through enhanced γ transitions. However, since it is difficult to reproduce astrophysical conditions in laboratories, PDR was previously observed only in J = 1 spin states. Here we report the first experimental observation of J > 1 components of PDR, identified in the β-delayed γ decay of the Jπ = 3- spin-parity isomer of 80Ga. The data analysis, combined with decay information and theoretical calculations allows the identification of resonant structures below the neutron emission threshold of the neutron-rich germanium 80Ge as Jπ = (2,3)- components of the PDR built on the low-lying Jπ = 2+ quadrupole state. Our findings extend the concept of PDR beyond dipole states, with implications for nuclear structure theory and experiment, as well as the element production in the cosmos.
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