New Bounds on Exotic Long-Range Spin-Spin Interactions

Abstract

Many proposed extensions to the Standard Model of particle physics introduce new bosons that can mediate forces which couple to particle spin. Here we describe a search for such forces coupling spin-polarized neutrons and protons in our magnetometer to spin-polarized electrons within Earth. We measure these interactions by varying the orientation of an optical 199Hg-133Cs free-precession comagnetometer mounted upon a precision rotation platform. From these measurements, we establish upper bounds on the dimensionless coupling constants associated with the axial-axial potential V2 and the axial-vector potential V11 as a function of the force's range λ. For the electron-neutron and electron-proton potential V2 at infinite range, we find |gAegAn| ≤ 3.0 × 10-48 and |gAegAp| ≤ 3.0 × 10-47. For V11, we find our most stringent bounds to be |gAegVn| ≤ 2.2 × 10-25 and |gAegVp| ≤ 2.2 × 10-24 at λ≈ 103 km. Our results represent an improvement over previous results by up to a factor of 17 and set the most stringent bounds on long-range axial-axial and axial-vector couplings between electron spins and neutron and proton spins.

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