Isovector and isoscalar dipole excitations in 9Be and 10Be studied with antisymmetrized molecular dynamics

Abstract

Isovector and isoscalar dipole excitations in 9Be and 10Be are investigated in the framework of antisymmetrized molecular dynamics, in which angular-momentum and parity projections are performed. In the present method, 1p-1h excitations on the ground state and large amplitude α-cluster mode are incorporated. The isovector giant dipole resonance (GDR) in E>20 MeV shows the two peak structure which is understood by the dipole excitation in the 2α core part with the prolate deformation. Because of valence neutron modes against the 2α core, low-energy E1 resonances appear in E<20 MeV exhausting about 20\% of the Thomas-Reiche-Kuhn sum rule and 10\% of the calculated energy-weighted sum. The dipole resonance at E 15 MeV in 10Be can be interpreted as the parity partner of the ground state having a 6He+α structure and has the remarkable E1 strength because of coherent contribution of two valence neutrons. The ISD strength for some low-energy resonances are significantly enhanced by the coupling with the α-cluster mode. The calculated E1 strength of 9Be reasonably describes the global feature of experimental photonuclear cross sections consisting of the low-energy strength in E<20 MeV and the GDR in E>20 MeV.