Coulomb breakup reactions of 11Li in the coupled-channel 9Li~+~n~+~n three-body model

Abstract

We investigate the three-body Coulomb breakup of a two-neutron halo nucleus 11Li. We use the coupled-channel 9Li + n + n three-body model, which includes the coupling between last neutron states and the various 2p-2h configurations in 9Li due to the tensor and pairing correlations. The three-body scattering states of 11Li are described by using the combined methods of the complex scaling and the Lippmann-Schwinger equation. The calculated breakup cross section successfully reproduces the experiments. The large mixing of the s-state in the halo ground state of 11Li is shown to play an important role in explanation of shape and strength of the breakup cross section. In addition, we predict the invariant mass spectra for binary subsystems of 11Li. It is found that the two kinds of virtual s-states of 9Li-n and n-n systems in the final three-body states of 11Li largely contribute to make low-lying peaks in the invariant mass spectra. On the other hand, in the present analysis, it is suggested that the contributions of the p-wave resonances of 10Li is hardly confirmed in the spectra.