TITLE:
Towards a Unified Theory of Everything: Integrating Discrete Time Evolution and Classical-Quantum Dynamics in the Advanced Observer Model (AOM)
AUTHORS:
Joseph H. C. Wong
KEYWORDS:
Quantum Mechanics, Schrödinger Equation, Constant Frame Rate (CFR), Advanced Observer Model (AOM), Relativistic Physics, Classical-Quantum Transition, Wave Function, Discrete Time Evolution, Spacetime Geometry, Unified Theory, Quantum-Classical Unification, Observer-Dependent Reality, Energy Scaling
JOURNAL NAME:
Journal of Quantum Information Science,
Vol.14 No.4,
November
14,
2024
ABSTRACT: This paper introduces the Advanced Observer Model (AOM), a novel framework that integrates classical mechanics, quantum mechanics, and relativity through the observer’s role in constructing reality. Central to the AOM is the Static Configuration/Dynamic Configuration (SC/DC) conjugate, which examines physical systems through the interaction between static spatial configurations and dynamic quantum states. The model introduces a Constant Frame Rate (CFR) to quantize time perception, providing a discrete model for time evolution in quantum systems. By modifying the Schrödinger equation with CFR, the AOM bridges quantum and classical physics, offering a unified interpretation where classical determinism and quantum uncertainty coexist. A key feature of the AOM is its energy scaling model, where energy grows exponentially with spatial dimensionality, following the relationship
E∝
(
π
)
n
. This dimensional scaling connects the discrete time perception of the observer with both quantum and classical energy distributions, providing insights into the nature of higher-dimensional spaces. Additionally, the AOM posits that spacetime curvature arises from quantum interactions, shaped by the observer’s discrete time perception. The model emphasizes the observer’s consciousness as a co-creator of reality, offering new approaches to understanding the quantum-classical transition. While speculative, the AOM opens new avenues for addressing foundational questions in quantum mechanics, relativity, dimensionality, and the nature of reality.