Journal
NEW JOURNAL OF PHYSICS
Volume 25, Issue 10, Pages -Publisher
IOP Publishing Ltd
DOI: 10.1088/1367-2630/acfdc3
Keywords
dark matter; axion; axion-like particle; beyond Standard Model physics
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The study reports on a search for a new, short-range, spin-dependent interaction using a modified experimental apparatus. The results did not show any evidence of the predicted interaction.
We report on a search for a new, short-range, spin-dependent interaction using a modified version of the experimental apparatus used to measure the permanent neutron electric dipole moment at the Paul Scherrer Institute. This interaction, which could be mediated by axion-like particles, concerned the unpolarized nucleons (protons and neutrons) near the material surfaces of the apparatus and polarized ultracold neutrons stored in vacuum. The dominant systematic uncertainty resulting from magnetic-field gradients was controlled to an unprecedented level of approximately 4 pT cm(-1) using an array of optically-pumped cesium vapor magnetometers and magnetic-field maps independently recorded using a dedicated measurement device. No signature of a theoretically predicted new interaction was found, and we set a new limit on the product of the scalar and the pseudoscalar couplings g(s)g(p)lambda(2)<8.3x10(-28)m(2 ) (95% C.L.) in a range of 5 mu m < lambda < 25 mm for the monopole-dipole interaction. This new result confirms and improves our previous limit by a factor of 2.7 and provides the current tightest limit obtained with free neutrons.
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