Structure of the mirror nuclei 9Be and 9B in a microscopic cluster model

Abstract

The structure of the mirror nuclei 9Be and 9B is studied in a microscopic α+ α+ n and α+ α+ p three-cluster model using a fully antisymmetrized 9-nucleon wave function. The two-nucleon interaction includes central and spin-orbit components and the Coulomb potential. The ground state of 9Be is obtained accurately with the stochastic variational method, while several particle-unbound states of both 9Be and 9B are investigated with the complex scaling method.The calculation for 9Be supports the recent identification for the existence of two broad states around 6.5 MeV, and predicts the 32-2 and 52-2 states at about 4.5 MeV and 8 MeV, respectively. The similarity of the calculated spectra of 9Be and 9B enables one to identify unknown spins and parities of the 9B states. Available data on electromagnetic moments and elastic electron scatterings are reproduced very well. The enhancement of the E1 transition of the first excited state in 9Be is well accounted for. The calculated density of 9Be is found to reproduce the reaction cross section on a Carbon target. The analysis of the beta decay of 9Li to 9Be clearly shows that the wave function of 9Be must contain a small component that cannot be described by the simple α+ α+ n model. This small component can be well accounted for by extending a configuration space to include the distortion of the α-particle to t+p and h+n partitions.

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