Structure of 10Be and 10B hypernuclei studied with the four-body cluster model

Abstract

The structure of the isodoublet hypernuclei, 10B and 10Be within the framework of an α +α + +N four-body cluster model is studied. Interactions between the constituent subunits are determined so as to reproduce reasonably well the observed low-energy properties of the α α, α N, α , α α and α α N subsystems. Furthermore, the two-body N interaction is adjusted so as to reproduce the 0+-1+ splitting of 4H. The binding energies of 10B and 10Be are 8.76 MeV and 8.94 MeV, respectively. The energy splitting of the 1--2- levels in 10B is 0.08 MeV, which does not contradict the experimental report in BNL-E930. An even-state N charge symmetry breaking (CSB) interaction determined from the A=4 systems works repulsively by +0.1 MeV (attractively by -0.1 MeV) in 10Be (10B). We discuss a possibility that an odd-state CSB interaction improves the fitting to the experimental data of A=10 double hypernuclei.