Constraints on New Gravitylike Forces in the Nanometer Range

Abstract

We report on a new constraint on gravitylike short-range forces, in which the interaction charge is mass, obtained by measuring the angular distribution of 5 A neutrons scattering off atomic xenon gas. Around 107 scattering events were collected at the 40 m small angle neutron scattering beam line located at the HANARO research reactor of the Korean Atomic Energy Research Institute. The extracted coupling strengths of new forces in the Yukawa-type parametrization are g2 = (0.2 6.8 2.0) × 10-15 GeV2 and g2 = (-5.3 9.0 + 2.7 -2.8) × 10-17 GeV2 for interaction ranges of 0.1 and 1.0 nm, respectively. These strengths correspond to 95% confidence level limits of g2 < (1.4 0.2) × 10-14 GeV-2 and g2 < (1.3 0.2) × 10-16 GeV-2, improving the current limits for interaction ranges between 4 and 0.04 nm by a factor of up to 10.