The relationship between kinetic time dilation and gravitational time dilation remains one of the deepest conceptual structures in modern physics. While Special Relativity attributes temporal suppression to motion and General Relativity attributes it to gravitation, both effects exhibit mathematically analogous forms. This work proposes a candidate uni-fying mechanism in which both forms of temporal suppression arise from a common process: energy-induced suppression of local quantum evolution. A new quantity termed Evoltropy is introduced to represent the measurable rate of physically realized local quantum evolution responsible for temporal becoming. A quantized microscopic basis, termed the Evolton (ξ0), is proposed as the smallest irreducible causal evolution event. The framework hypothesizes that kinetic energy and localized mass-energy suppress local Evolton dynamics through a common Evoltropic suppression mechanism. Relativistic time dilation and gravitational time dilation are then reinterpreted as limiting manifestations of the same underlying process. The proposal is presented as a candidate quantized mechanism for gravity rather than a derivation from first principles. Atomic clocks are treated as operational detectors of Evolton accumulation until a more fundamental microscopic mechanism is identified. Testable implications for black-hole environments, photon behavior, and near-horizon deviations are discussed.
Amar Naik (Thu,) studied this question.
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