Entanglement generation in few-nucleon scattering

Abstract

Inspired by a recent Letter [S. R. Beane et al., Phys. Rev. Lett. 122, 102001(2019)], the entanglement generated in the elastic S-wave scattering of p+3He and n+3H is studied, where the proton, neutron, 3He, and 3H are all regarded as qubits. To deal with the Coulomb interaction between the proton and 3He, we derive the entanglement power, a physical quantity that measures the average entanglement generated by a scattering process, for charged qubits within the screening method. The entanglement power in the aforementioned two few-nucleon scatterings is found to be generally much smaller than that in the S-wave n+p scattering at low energies, with the corresponding cluster effective field theories possessing an enhanced approximate SU(2)1(2)2 symmetry at leading order. Our study suggests that the entanglement generation capacities of effective interactions between nucleons and light nuclei could be more suppressed than realistic nucleon-nucleon interactions at low energies.

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