One neutron triaxial halo candidates in aluminum isotopes from reaction observables

Abstract

Microscopic description of one neutron (1n) halo candidates 40,42Al, with particular triaxial shape, is presented by combining the triaxial relativistic Hartree-Bogoliubov theory in continuum (TRHBc) with the Glauber reaction model for the first time. In this scheme, the reaction cross sections of aluminum isotopes on a carbon target at 240 and 900 MeV/A are calculated, which exhibit a pronounced increase for 40,42Al + 12C deviating from the systematic trend of their neighbours. Furthermore, the predicted longitudinal momentum distributions of the residues after 1n removal reactions for 40,42Al + 12C are narrower than those for 36,38Al + 12C, which suggest halo structure with spatially extended density distribution. Based on the large occupation probabilities of p-wave valence neutrons, we identify 40,42Al as the first triaxially deformed 1n p-wave halo candidates. This work cast a new light on the search for the heavier halo nuclei for future experiments in the mass region of A≈40, through theoretical predictions from triaxial structure to reaction observables.