Quantum paradoxical knowledge

Benjamin Schumacher; Michael D. Westmoreland

arXiv:2306.17743·quant-ph·July 3, 2023

Quantum paradoxical knowledge

Benjamin Schumacher, Michael D. Westmoreland

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TL;DR

This paper extends the quantum pigeonhole paradox to a broader class of quantum paradoxes involving various particle relations such as orderings, functions, and graphs, revealing new insights into quantum non-classicality.

Contribution

It introduces a generalized framework for quantum paradoxes beyond the pigeonhole scenario, encompassing diverse particle relations.

Findings

01

Generalization of quantum pigeonhole paradox to arbitrary relations

02

Identification of new quantum paradoxes involving orderings, functions, and graphs

03

Enhanced understanding of quantum non-classical correlations

Abstract

We generalize the quantum "pigeonhole paradox" to quantum paradoxes involving arbitrary types of particle relations, including orderings, functions and graphs.

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Taxonomy

TopicsQuantum Mechanics and Applications