Constraints on short-range spin-dependent interactions from scalar spin-spin coupling in deuterated molecular hydrogen

Abstract

A comparison between existing measurements and calculations of the scalar spin-spin interaction (J-coupling) in deuterated molecular hydrogen (HD) yields stringent constraints on anomalous spin-dependent potentials between nucleons at the atomic scale ( 1 ). The dimensionless coupling constant gPpgPN/4π associated with exchange of pseudoscalar (axion-like) bosons between nucleons is constrained to be less than 5× 10-7 for boson masses in the range of 5 keV. This represents improvement by a factor of about 100 over constraints placed by measurements of the dipole-dipole interaction in molecular H2. The dimensionless coupling constant gApgAN/4 π associated with exchange of a heretofore undiscovered axial-vector boson between nucleons is constrained to be gApgAN/4 π < 2 × 10-19 for bosons of mass 1000 eV, improving constraints at this distance scale by a factor of 100 for proton-proton couplings and more than 8 orders of magnitude for neutron-proton couplings. This limit is also a factor of 100 more stringent than recent constraints obtained for axial-vector couplings between electrons and nucleons obtained from comparison of measurements and calculations of hyperfine structure.