Information-Theoretic Foundation for Quantum Gravity and Fundamental Interactions

This paper presents an original, theoretical framework for understanding the fundamental physics behind reality, by unifying quantum mechanics with relativity and essentially formalizing a conceptual basis of a theory of everything. Additionally, by removing inconsistencies between such theories, the more unified framework seamlessly fits in with all existing disciplines such as cosmology and particle physics. This broadens our understanding of the universe, and is based on a newly proposed, unique model of quantum gravity, which describes how the world exists at a sub-quantum scale. Introducing concepts such as holographic 2-dimensional quantum foam oscillations and information quanta provides a novel perspective for addressing numerous mysteries such as black holes and dark energy. These solutions are derived from the core concepts of the hypothesis, and describe advanced interactions leading to the complex nature of both microscopic and macroscopic viewpoints. Through analyzing existing theories, and using straightforward problem-solving approaches, this paper presents the implications and concepts of the Information Theory. Further material such as experimental propositions are noted, which act as potential validation checks and references, providing a foundation for further theoretical development and exploration.