Beyond mean-field approach for pear-shaped hypernuclei

Abstract

We develop both relativistic mean field and beyond approaches for hypernuclei with possible quadrupole-octupole deformation or pear-like shapes based on relativistic point-coupling energy density functionals. The symmetries broken in the mean-field states are recovered with parity, particle-number, and angular momentum projections. We take 21 as an example to illustrate the method, where the hyperon is put on one of the two lowest-energy orbits (labeled as s, p), respectively. We find that the hyperon in both cases disfavors the formation of a reflection-asymmetric molecular-like 16O+α structure in 20Ne, which is consistent with the Nilsson diagram for the hyperon in (β2, β3) deformation plane. In particular, we show that the negative-parity states with the configuration 20Ne(Kπ=0-) s are close in energy to those with the configuration 20Ne(Kπ=0+) p, even though they have very different structures. The s (p) becomes more and more concentrated around the bottom (top) of the "pear" with the increase of octupole deformation.