Ab initio calculation of charge symmetry breaking in A=7 and 8 -hypernuclei

Abstract

The separation energies of the isospin triplet 7, 7 Li*, 7, and the T=1/2 doublet 8, 8 are investigated within the no-core shell model. Calculations are performed based on a hyperon-nucleon potential derived from chiral effective field theory at next-to-leading order. The potential includes the leading charge-symmetry breaking (CSB) interaction in the N channel, whose strength has been fixed to the experimentally known difference of the separation energies of the mirror hypernuclei 4 He and 4 H. It turns out that the CSB predicted for the A=7 systems is small and agrees with the splittings deduced from the empirical binding energies within the experimental uncertainty. In case of the A=8 doublet, the computed CSB is somewhat larger than the available experimental value. Using other experimental input for A=4 can change this prediction moving it closer to experiment.