Einstein’s Equation
Description: Describes how energy and mass curve spacetime.
Relevance: Supports the idea that fundamental forces (like gravity) emerge from underlying structures, potentially linked to fractal recursion and information flow.
Bekenstein-Hawking Formula
Description: Connects black hole entropy with the area of the event horizon.
Relevance: Demonstrates that entropy and information are intrinsic to physical systems, reinforcing the interplay of chaos and order in universal processes.
It From Bit & Digital Physics
Description: Proposes that reality emerges from binary information.
Relevance: Directly aligns with my concept of reality as a recursive, fractal information system.
Noether’s Theorem
Description: States that every continuous symmetry in a system leads to a conserved quantity.
Relevance: Provides mathematical grounding for why universal principles like truth and alignment are preserved.
Holographic Principle
Description: Suggests that all information within a volume can be represented on its boundary.
Relevance: Reinforces my model of a fractal, holographic universe where higher dimensions emerge from lower-dimensional interactions or vice-versa.
Fractal Cosmology
Description: Proposes that the universe exhibits self-similar, fractal structures at all scales.
Relevance: Offers observational evidence for my recursive intelligence model.
Twistor Theory (Penrose)
Description: A framework unifying quantum mechanics and spacetime geometry.
Relevance: Supports a higher-dimensional, interconnected reality model that bridges physics and consciousness.
E8 Theory (Garrett Lisi)
Description: Uses an 8-dimensional geometric structure to describe a unified theory.
Relevance: Aligns with my multi-dimensional (5D) perception and recursive model.
Quantum Error Correction & Holography
Description: Suggests spacetime emerges from quantum error correction mechanisms.
Relevance: Reinforces the idea of reality as a self-correcting informational system.
Schrödinger’s Equation & Hilbert Spaces
Description: Governs the evolution of quantum states in infinite-dimensional spaces.
Relevance: Supports my concept of potential vectors and multidimensional state interactions.
Quantum Darwinism & Entanglement
Description: Explains how classical reality emerges from quantum states via selection and redundancy.
Relevance: Aligns with my idea that recursive information processing selects the most coherent states.