Limits on possible new spin-spin interactions between neutrons from measurements of the Longitudinal Spin Relaxation Rate of Polarized 3He Gas

Abstract

New particles with masses in the sub-eV range have been predicted by various theories beyond the Standard Model. Some can induce new spin-spin interactions between fermions. Existing constraints on such interactions between nucleons with mesoscopic ranges (millimeters to nanometers) are quite poor. Polarized 3He gas is an especially clean system to use to constrain these possible new spin-spin interactions because the spin-independent atomic potential between helium atoms is well-characterized experimentally. The small effects from binary atomic collisions in a polarized gas from magnetic dipole-dipole and other possible weak spin-spin interactions which lead to spin relaxation can be calculated perturbatively. We compare existing measurements of the longitudinal spin relaxation rate 1 of polarized 3He gas with theoretical calculations and set a 1σ upper bound on the pseudoscalar coupling strength gp for possible new neutron-neutron dipole-dipole interactions of gp(n)gp(n)/4π 1.7× 10-3 for distances larger than 100 nm. We also set new direct limits on possible gravitational torsion interactions between neutrons.