Spin-flip doublets of 9Be spectrum within a cluster model

Abstract

The structure of the 9Be low-lying spectrum is studied within the cluster model α+α+n. In the model the total orbital momentum is fixed for each energy level. Thus each level is determined as a member of the spin-flip doublet corresponding to the total orbital momentum (Lπ=0+, 2+,4+, 1-, 2-,3-, 4-) of the system. The Ali-Bodmer potential (model E) is applied for the αα interaction. We employ a local α n potential which was constructed to reproduce the α-n scattering data. The Pauli blocking is simulated by the repulsive core of the s-wave components of these potentials. Configuration space Faddeev equations are used to calculate the energy of the bound state (Ecal.=-1.493 MeV v.s. Eexp.=-1.5735 MeV) and resonances. A variant of the method of analytical continuation in the coupling constant is applied to calculate the energies of low-lying levels. Available 9Be spectral data are satisfactorily reproduced by the proposed model.