New Upper Bounds on Exotic Neutron Spin-Electron Spin Interactions via Neutron Spin Rotation Measurements in a Compensated Ferrimagnet

Abstract

We report a search for exotic spin-spin interactions between neutrons and electrons which could signal new physics beyond the Standard Model using slow neutron polarimetric imaging through a dense medium of polarized electrons. Our dense polarized electron target is a ferrimagnet held at its magnetic compensation temperature, which realizes a polarized electron ensemble with zero net magnetization. We sought the spin rotation of transversely polarized neutrons from a neutron spin-electron spin interaction of the form V2=-gAegAn c4πσe·σne-r/λcr, where gAe and gAn are the electron and neutron axial couplings, σe and σn are the electron and neutron spin, and λc is the interaction range for an exotic axial vector interaction from massive spin-1 boson exchange of mass c/λc. The resulting average neutron spin rotation angle per unit length, dφF5dz=[0.416.30\ (stat.)4.4\ (sys.)]×10-3 rad/m, is consistent with zero. Our novel approach improves the previous upper limits on the coupling constant product gAegAn by several orders of magnitude in the poorly explored 10-8≤λc≤10-2 range.