Violation of U1 Gauge Symmetry by Yang-Mills Gravity and Deflection of Light Experiment

Abstract

Based on the gauge symmetry framework, the U1 symmetry of electrodynamics is violated in the presence of gravity with space-time translational gauge symmetry in inertial frames. For a light ray, an eikonal equation with effective metric tensors is derived in the geometric-optics limit. Under these conditions, the angle of the deflection of light by the sun is calculated to be φ ≈ 1.75'' in inertial frames without requiring a gauge condition such as μ Aμ=0. In contrast, if the theory is U1 gauge invariant, one can impose the gauge condition μ Aμ=0 in the derivation of the eikonal equation. In this case, one obtains a slightly different effective metric tensor and a different angle of deflection φ ≈ 1.52''. However, because the precision of experiments in the last century using optical frequencies has been no better than (10 - 20)\% due to large systematic errors, one cannot unambiguously rule out the result φ ≈ 1.52'. It is hoped that the precision of these data can be improved in order to test Yang-Mills gravity.