Short-range test of the universality of gravitational constant G at the millimeter scale using a digital image sensor

Abstract

The composition dependence of gravitational constant G is measured at the millimeter scale to test the weak equivalence principle, which may be violated at short range through new Yukawa interactions such as the dilaton exchange force. A torsion balance on a turning table with two identical tungsten targets surrounded by two different attractor materials (copper and aluminum) is used to measure gravitational torque by means of digital measurements of a position sensor. Values of the ratios GAl-W/GCu-W -1 and GCu-W/GN -1 were (0.9 1.1sta 4.8sys) × 10-2 and (0.2 0.9sta 2.1sys) × 10-2 , respectively; these were obtained at a center to center separation of 1.7 cm and surface to surface separation of 4.5 mm between target and attractor, which is consistent with the universality of G. A weak equivalence principle (WEP) violation parameter of ηAl-Cu(r 1\: cm)=(0.9 1.1sta 4.9sys) × 10-2 at the shortest range of around 1 cm was also obtained.