On The Complete Description Of Entangled Systems Part II: The   (Meta)Physical Status And Semantic Aspects

Karl Svozil

arXiv:2211.03205·quant-ph·December 6, 2022·Entropy

On The Complete Description Of Entangled Systems Part II: The (Meta)Physical Status And Semantic Aspects

Karl Svozil

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TL;DR

This paper explores the semantic aspects of probability bounds in quantum mechanics, discusses the implications of quantization on space-time, and considers how non-unitary processes might challenge relativity.

Contribution

It offers a novel analysis of semantic issues in quantum probability bounds and speculates on the emergence of space-time from quantum phenomena, challenging classical relativity.

Findings

01

Quantum probability bounds can be semantically analyzed.

02

Emerging space-time may be an epiphenomenon of quantization.

03

Non-unitary processes could lead to breakdowns of relativity.

Abstract

We review some semantical aspects of probability bounds from Boole's "conditions on possible experience" violated by quantum mechanics. We also speculate about emerging space-time categories as an epiphenomenon of quantization and the resulting breakdown of relativity theory by non-unitary and non-linear processes.

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Taxonomy

TopicsQuantum Mechanics and Applications