Entropic Time, Psychophysics, and Deformed Neural Dynamics: A Unified Physical Theory for Human Time Perception

Abstract

We present a unified physical theory demonstrating that human subjective time perception does not track geometric coordinate time t, but instead emerges from a local metric mutation driven by macroscopic physical entropy production. By establishing the Nonextensive Troika -- a closed, mutually dependent algebraic triplet linking the phase-space fractal dimension D, the conformable derivative order α, and the Tsallis nonextensive parameter q -- we eliminate independent phenomenological fitting constants. We prove that the local time metric inherently scales as tα, deriving the conformable operator as a necessary kinetic consequence. Furthermore, we derive the q-index from the equiprobable monofractal Tsallis entropy Sq. This structural closure unifies anomalous neural dissipative transport within a deformed leaky integrate-and-fire framework and analytically predicts macroscopic psychophysical response transitions, providing a clear thermodynamic basis for time dilation in psychedelic states (the REBUS model) and temporal compression during cognitive aging.