Cosmic Gravitational Depth Theory (CGDT) is a speculative theoretical framework that interprets gravity as a manifestation of hierarchical gravitational-depth structures embedded within a multidimensional cosmic geometry. The theory proposes that gravitational depth corresponds to the concentration of gravitational influence within a given structural domain and that physical systems occupy different levels of gravitational depth according to their density, mass distribution, energy state, and dynamical properties. Within this framework, gravitational collapse is interpreted as a transition between depth levels, while black holes are treated as boundary regions separating distinct gravitational-depth domains rather than as terminal endpoints of matter and energy. The model further proposes that extreme depth states may generate higher-dimensional feedback effects that contribute to large-scale cosmic expansion, providing an alternative conceptual interpretation of phenomena commonly associated with dark energy. This work presents the conceptual foundations, mathematical formulation, physical interpretation, and potential observational implications of the Cosmic Gravitational Depth Theory. The framework remains speculative and is presented as a hypothesis intended for discussion, refinement, and future investigation rather than as an established physical theory. “CGDT is currently a speculative theoretical proposal and has not yet been experimentally verified. The framework is presented to stimulate discussion and future investigation.”
Ali Alhawarat (Mon,) studied this question.