Charge and Matter Form Factors of Two-Neutron Halo Nuclei in Halo Effective Field Theory at Next-to-leading-order

Abstract

Using halo effective field theory (EFT), an expansion in Rcore/Rhalo, where Rcore is the radius of the core and Rhalo the radius of the halo nucleus, we calculate the charge and neutron form factors of the two-neutron halo nuclei 11Li, 14Be, and 22C to next-to-leading-order (NLO) by treating them as an effective three-body system. From the form factors we extract the point charge and point matter radii, inter-neutron distance, and neutron opening angle. Agreement is found with existing experimental extractions. Results are given for the point charge and point matter radii for arbitrary neutron core scattering effective range, cn, that can be used for predictions once cn is measured. Estimates for cn are also used to make NLO predictions. Finally, our point charge radii are compared to other halo-EFT predictions, and setting the core mass equal to the neutron mass our point charge radius is found to agree with an analytical prediction in the unitary limit.