Probe Spin-Velocity Dependent New Interactions by Spin Relaxation Times of Polarized 3He Gas

Abstract

We have constrained possible new interactions which produce nonrelativistic potentials between polarized neutrons and unpolarized matter proportional to ασ·v where σ is the neutron spin and v is the relative velocity. We use existing data from laboratory measurements on the very long T1 and T2 spin relaxation times of polarized 3He gas in glass cells.Using the best available measured T2 of polarized 3He gas atoms as the polarized source and the earth as an unpolarized source, we obtain constraints on two new interactions. We present a new experimental upper bound on possible vector-axial-vector(VVA) type interactions for ranges between 1108m. In combination with previous results, we set the most stringent experiment limits on gVgA ranging from μm to 108m. We also report what is to our knowledge the first experimental upper limit on the possible torsion fields induced by the earth on its surface. Dedicated experiments could further improve these bounds by a factor of 100. Our method of analysis also makes it possible to probe many velocity dependent interactions which depend on the spins of both neutrons and other particles which have never been searched for before experimentally.