Ab-initio no-core shell model study of 10-14B isotopes with realistic NN interactions

Abstract

We report a comprehensive study of 10-14B isotopes within the ab-initio no-core shell model (NCSM) using realistic nucleon-nucleon (NN) interactions. In particular, we have applied the inside non-local outside Yukawa (INOY) interaction to study energy spectra, electromagnetic properties and point-proton radii of the boron isotopes. The NCSM results with the charge-dependent Bonn 2000 (CDB2K), the chiral next-to-next-to-next-to-leading order (N3LO) and optimized next-to-next-to-leading order (N2LOopt) interactions are also reported. We have reached basis sizes up to Nmax = 10 for 10B, Nmax = 8 for 11,12,13B and Nmax = 6 for 14B with m-scheme dimensions up to 1.7 billion. We also compare the NCSM calculations with the phenomenological YSOX interaction using the shell model to test the predictive power of the ab-initio nuclear theory. Overall, our NCSM results are consistent with the available experimental data. The experimental ground state spin 3+ of 10B has been reproduced using the INOY NN interaction. Typically, the 3N interaction is required to correctly reproduce the aforementioned state.