Neutron Scattering off One-Neutron Halo Nuclei in Halo Effective Field Theory

Abstract

Neutron scattering off neutron halos can provide important information about the internal structure of nuclei close to the neutron drip line. In this work, we use halo effective field theory to study the s-wave scattering of a neutron and the spin-parity JP=12+ one-neutron halo nuclei 11 Be, 15 C, and 19 C at leading order. In the J=1 channel, the only inputs to the Faddeev equations are their one-neutron separation energies. In the J=0 channel, the neutron-neutron scattering length and the two-neutron separation energies of 12Be, 16C and 20C enter as well. The numerical results show that the total s-wave cross sections in the J=1 channel at threshold are of the order of a few barns. In the J=0 channel, these cross sections are of the order of a few barns for n-11 Be and n-19 C scattering, and about 60 mb for the n-15 C scattering. The appearance of a pole in pδ close to zero in all three cases indicates the existence of a virtual Efimov state close to threshold in each of the 12 Be, 16 C, and 20 C systems. Observation of this pole would confirm the presence of Efimov physics in halo nuclei. The dependence of the results on the neutron-core scattering length is also studied.