No-Core MCSM calculation for 10Be and 12Be low-lying spectra

Abstract

The low-lying excited states of 10Be and 12Be are investigated within a no-core Monte Carlo Shell Model (MCSM) framework employing a realistic potential obtained via the Unitary Correlation Operator Method. The excitation energies of the 2+1 and 2+2 states and the B(E2;\,2+1,2→ 0+g.s.) for 10Be in the MCSM with a standard treatment of spurious center-of-mass motion show good agreement with experimental data. Some properties of low-lying states of 10Be are studied in terms of quadrupole moments, E2 transitions and single-particle occupation numbers. The E2 transition probability of 10C, the mirror nucleus of 10Be, is also presented with a good agreement to experiment. The triaxial deformation of 10Be and 10C is discussed in terms of the B(E2) values. The removal of the spurious center-of-mass motion affects differently on various states: for instance, negligible effects on the 2+1 and 2+2 levels of 10Be, while significant and favorable shift for the 1-1 level. It is suggested that the description of 12Be needs a larger model space as well as some other higher excited states of 10Be, as an indicator that these are dominated by intruder configurations.