Gravity has long been described through the lens of pure geometry, visualized as the curvature of spacetime under the weight of energy. However, a powerful complementary perspective suggests that gravity is fundamentally thermodynamic in origin, emerging from microscopic degrees of freedom and the natural flow of information. Extending the foundations of the treatise Time May Not Exist!, this article argues that if space inherently bears an entropic structure, time must logically carry a corresponding gradient of entropy-an underlying rhythm of becoming that regulates how all information evolves. To formalize this phenomenon, the research introduces the Chronon Field, defined as a local temporal rate whose thermodynamic 4-gradient actively directs the intensity of temporal ordering. Within this paradigm, familiar cosmological mechanics are radically recast: gravitational redshift maps the local temporal tension, the arrow of time manifests as rhythmic dissipation, and cosmic expansion is dictated by the secular decay of this universal beat. Furthermore, the manuscript demonstrates a Newtonian limit where free fall directly follows the slope of this temporal tension, offering a cohesive bridge between classical acceleration and entropic time. Moving strictly beyond theoretical philosophy, this framework is anchored in empirical reality by providing clear, falsifiable predictions. Through the use of optical clock networks, relativistic geodesy, and the mapping of quantum decoherence, the proposed spatial and temporal gradients can be rigorously tested. By replacing geometric curvature with thermodynamic rhythm as the operative grammar of reality, this work demonstrates that quantum coherence, gravity, and the arrow of time are ultimately three interconnected faces of a single fundamental temporal gradient.
Benjamin Brécheteau (Sun,) studied this question.