This work constitutes Paper II in the experimental verification program of the MATE framework. ÌThis paper presents the second experimental test proposal of the MyominAung Theory of Everything (MATE), reinterpreting gravitational redshift as a consequence of spatial gradients in the excitation frequency of the universal photon sea rather than spacetime curvature. Using the inverse mass–frequency relation �, we show that massive bodies locally suppress the photon-sea frequency, leading to redshifted photons escaping gravitational potential wells.At leading order, the MATE framework reproduces the standard Schwarzschild gravitational redshift prediction of General Relativity, ensuring consistency with existing experimental confirmations. However, MATE introduces small but potentially observable higher-order corrections that depend on the effective atomic composition of the gravitating body, a feature absent in General Relativity.The paper identifies compact astrophysical objects—particularly white dwarfs and neutron stars—as promising observational testbeds, where composition-dependent deviations from standard gravitational redshift may be detectable. Together with the species-dependent atomic clock effects proposed in Paper I, this work forms a coherent experimental program aimed at probing possible non-universality in the flow of time within the photon-sea framework.
Myomin Aung (Thu,) studied this question.