What question did this study set out to answer?

To propose a framework where physical phenomena arise from the propagation of informational states in a discrete model of space.

May 21, 2026Open Access

A Conceptual Discrete Informational Model of Gravitation, Quantum Correlations, and Wave Propagation

Key Points

To propose a framework where physical phenomena arise from the propagation of informational states in a discrete model of space.
Developed a node-based structure to represent space and informational states.
Utilized a guiding principle of informational density to interpret various physical phenomena.
Outlined the non-empirical nature of the model to differentiate it from established theories.
Qualitatively interprets gravitational attraction and wave propagation using the gradient of informational density.
Discusses implications for understanding quantum interference and black hole behavior without empirical validation.
Highlights the potential for further research to formalize the proposed model.

Abstract

This preprint proposes a conceptual discrete informational model of space in which physical phenomena emerge from the propagation of informational states on a node-based structure. A single guiding principle—the gradient of informational density—is used to qualitatively interpret gravitational attraction, wave propagation, quantum interference, black hole behavior, and cosmological expansion. The work is explicitly non-empirical and does not claim quantitative agreement with established physical theories. It is intended as an exploratory framework and a basis for future formal development.

A Conceptual Discrete Informational Model of Gravitation, Quantum Correlations, and Wave Propagation

Key Points

Abstract

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