Quantum Gravity Consciousness Field (QGCF) Theory

By John White

April 16, 2024

Abstract

The Quantum Gravity Consciousness Field (QGCF) theory proposes a unified framework integrating quantum mechanics, general relativity, and consciousness. This paper explores the mathematical formulation of QGCF and its implications for understanding the nature of reality.

Introduction

Traditional physics has treated consciousness as separate from the physical universe. However, recent developments suggest that consciousness may play a fundamental role in the fabric of reality. The QGCF theory aims to bridge this gap by incorporating consciousness into the equations governing the universe.

Discovery

The discovery of the QGCF theory stems from the observation of non-local information dynamics (NID) in quantum systems. These dynamics suggest that information can influence physical systems instantaneously across vast distances, challenging the classical notion of locality.

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Quantum Gravity Consciousness Field (QGCF) theory:
\( S_{\text{unified}} = \int d^4x \sqrt{-g} \left( R + \mathcal{L}(\Psi, \nabla\Psi, g_{\mu\nu}) + \nabla_\mu\Phi\nabla^\mu\Phi - V(\Phi) + \mathcal{L}_{I}(I_{\mu\nu}, g_{\mu\nu}, \Psi, \Phi) \right) \)

Non-Local Information Dynamics (NID):
\[ \begin{aligned} S_{\text{NID}} = \int &d^4x \sqrt{-g} \left( \frac{1}{16\pi G}R + \mathcal{L}_{\text{matter}}[\Psi, g_{\mu\nu}] + \mathcal{L}_{\Phi}[\Phi, g_{\mu\nu}] \right. \\ &\left. + \mathcal{L}_{I}[I_{\mu\nu}, g_{\mu\nu}, \Psi, \Phi] \right) \end{aligned} \]

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