New constraints for CP-violating forces between nucleons in the range 10-4 cm - 1 cm

Abstract

The range of nucleon interaction 10-4 cm - 1 cm is interesting because it corresponds to the mass range of a intermediate particle inside so named "axion window" that is not closed yet by experiment. Depolarization of ultracold neutrons (UCN) during their storage in material traps can be caused by CP-violating pseudo-magnetic precession of the neutron spin in the vicinity of the unpolarized substance surface. Using the experimental limits for UCN depolarization new constraints were set for the product of the scalar, pseudo-scalar dimensionless constants gS*gP and the parameter lamPS, determining the Yukawa-type of the nucleon interaction potential via new pseudo-scalar boson (axion-like particle) with a mass of mPS: gS*gP*lamPS2 <= 2.96*10-21 [cm2] for 10-3 cm < lamPS < 1 cm; gS*gP*lamPS2 <= 3.9*10-22 [cm2] for 10-4 cm < lamPS < 10-3 cm. Improvement of the limit for gS*gP in the area of lamPS from 0.1 cm to 1 cm accounts for 4-5 orders of magnitude in comparision with previous limit. The prospects of increasing in accuracy search for CP-violating pseudo-magnetic precession are considered. The estimations of the possible effects of pseudo-magnetic precession in the frame of the theoretical models with CP-violation are discussed.