Three-α configurations of the second Jπ=2+ state in 12C

Abstract

We investigate geometric configurations of α (4He nucleus) clusters in the second Jπ=2+ state of 12C, which has been discussed as a rotational band member of the second 0+ state, the Hoyle state. The ground and excited 0+ and 2+ states are described by a three-α cluster model. The three-body Schr\"odinger equation with orthogonality conditions is accurately solved by the stochastic variational method with correlated Gaussian basis functions. To analyse the structure of these resonant states in a convenient form, we introduce a confining potential. The two-body density distributions together with the spectroscopic information clarify the structure of these states. We find that main configurations of both the second 0+ and 2+ states are acute-angled triangle shapes originating from the 8Be(0+)+α configuration. However, the 8Be+α components in the second 2+ state become approximately 2/3 because the 8Be subsystem is hard to excite, indicating that the state is not an ideal rigid rotational band member of the Hoyle state.