Quantum Entanglement Through the Lens of Paraconsistent Logic

TL;DR

This paper introduces a paraconsistent logic framework to address and resolve logical inconsistencies in quantum entanglement, aiming for a more coherent interpretation of quantum mechanics.

Contribution

It develops a novel paraconsistent logical approach to quantum entanglement, resolving contradictions without sacrificing core quantum principles.

Findings

Provides a logical framework that handles superposition and non-locality coherently

Addresses philosophical foundations of quantum mechanics

Offers a potential interpretation that avoids classical contradictions

Abstract

This paper presents an alternative approach to quantum entanglement, one that effectively resolves the logical inconsistencies without leading to logical contradictions. By addressing some of the inconsistencies within quantum mechanics, such as state superposition and non-locality, that challenge classical causal explanations, our method is constructed on the principles of paraconsistent logic. Our aim is to develop a para-consistent framework that supports the features of quantum mechanics while remaining faithful to its fundamental principles. In this pursuit, we scrutinize the philosophical and mathematical foundations of quantum mechanics in relation to classical logic systems. This method is designed to untangle theoretical puzzle spaces and promote coherence in the discussion of quantum theory. Ultimately, our approach offers a potential solution for interpreting quantum mechanics in a more coherent manner.