On The Arrow of Time

TL;DR

This paper explores the fundamental nature of the arrow of time through quantum information theory, linking classical and quantum physics, and proposing a timeless interpretation of quantum processes with novel insights into wave-particle duality and fundamental constants.

Contribution

It introduces a new perspective on the arrow of time by connecting quantum information theory with classical physics and proposes a timeless interpretation of Feynman processes.

Findings

Wave-particle duality derived from the qubit model

Interpretation of CPT-Theorem in categorical framework

Potential link between fine-structure constant and algebraic number theory

Abstract

The interface between classical physics and quantum physics is explained from the point of view of quantum information theory (Feynman Processes). The interpretation depends on a hefty sacrifice: the classical determinism or the arrow of time. The wave-particle duality steams from the qubit model, as the root of creation and annihilation of possibilities. A few key experiments are briefly reviewed from the above perspective: quantum erasure, delayed-choice and wave-particle correlation. The CPT-Theorem is interpreted in the framework of categories with duality and a timeless interpretation of the Feynman Processes is proposed. A connection between the fine-structure constant and algebraic number theory is suggested.