This paper presents the first explicit experimental verification proposal for the MyominAung Theory of Everything (MATE). The study predicts a previously unexplored, species-dependent secular drift in atomic clock frequencies arising from an inverse mass–frequency relationship intrinsic to the MATE framework.Unlike General Relativity, which assumes universal time dilation independent of atomic composition, MATE predicts that clock frequencies depend weakly on atomic number and mass through the relation �. As a consequence, co-located atomic clocks based on different species (e.g., Cs-133 and Sr-87) are expected to exhibit ultra-small but systematic relative frequency drifts.The predicted drift magnitude, on the order of � per year, lies within the sensitivity of current state-of-the-art optical lattice and ion clock technologies. Importantly, all known relativistic, environmental, and systematic effects affect different clock species equally when co-located, making any persistent species-dependent drift a clear signature of new physics beyond General Relativity.This work establishes a concrete, falsifiable, and technologically feasible experimental benchmark for testing the physical validity of the MATE framework, and constitutes the first experimental pillar of the MATE program.
Myomin Aung (Thu,) studied this question.