Valadis Information Geometry: An Information–Energy Framework for Emergent Geometry and Cosmological Dynamics

This work introduces a theoretical informational framework in which information constitutes the primary quantity governing the evolution of physical systems, while geometry, gravity, and cosmological dynamics emerge from interactions between information and energy. The model is based on two fundamental relations: t = I/E and I = 2r² where I represents informational capacity, E energy, t time, and r the radius of an information acquisition domain. Within this framework spatial geometry, gravitational attraction, cosmological acceleration and horizon phenomena are interpreted as emergent consequences of informational dynamics. The framework also predicts discrete informational radii when informational units are treated as elementary quanta. The work proposes a minimal informational geometric structure connecting information theory, gravitational thermodynamics and cosmological evolution.