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Hardy's Paradox for Yu-Oh Set Constructed by Logically Contextual Quantum States

Chang He, Yongjun Wang, Baoshan Wang, Songyi Liu, Yunyi Jia

Abstract

Quantum contextuality is a fundamental nonclassical property of quantum systems, regarded as a key resource that demonstrates the computational and informational advantages of quantum over classical systems. Our present work aims to construct Hardy's paradoxes, a set of possibilistic conditions witnessing contextuality, for Yu-Oh set, which is the state-independent contextual quantum system with the least number of vectors. To achieve the aim, we systematically enumerate all logically contextual pure states on Yu-Oh set, and theoretically prove that no mixed states in this scenario are logically contextual. Based on the identified logically contextual quantum states, we construct 12 Hardy's paradoxes with identical success probability SP=11.1%. Furthermore, we present corresponding observables to experimentally witness these Hardy's paradoxes.

Hardy's Paradox for Yu-Oh Set Constructed by Logically Contextual Quantum States

Abstract

Quantum contextuality is a fundamental nonclassical property of quantum systems, regarded as a key resource that demonstrates the computational and informational advantages of quantum over classical systems. Our present work aims to construct Hardy's paradoxes, a set of possibilistic conditions witnessing contextuality, for Yu-Oh set, which is the state-independent contextual quantum system with the least number of vectors. To achieve the aim, we systematically enumerate all logically contextual pure states on Yu-Oh set, and theoretically prove that no mixed states in this scenario are logically contextual. Based on the identified logically contextual quantum states, we construct 12 Hardy's paradoxes with identical success probability SP=11.1%. Furthermore, we present corresponding observables to experimentally witness these Hardy's paradoxes.
Paper Structure (12 sections, 13 theorems, 27 equations, 1 figure, 2 algorithms)

This paper contains 12 sections, 13 theorems, 27 equations, 1 figure, 2 algorithms.

Table of Contents

  1. Introduction
  2. Quantum scenario and logical contextuality
  3. Quantum events and scenario
  4. Global events
  5. logical contextuality
  6. Logically contextual quantum states on Yu-Oh set
  7. Pure states with logical contextuality on Yu-Oh set
  8. From pure states to general quantum states
  9. Hardy's paradoxes for Yu-Oh set
  10. Supporting observables
  11. Conclusion
  12. Algorithms and related tables

Key Result

Proposition 1

In the scenario of Yu-Oh set $\mathcal{E}_{Yu-Oh}$, if function $\lambda_{KS}:\mathcal{E}_{Yu-Oh}\rightarrow\{0,1\}$ is a KS-assignment, then $\lambda_{KS}$ induces a deterministic hidden variable $\lambda$ on $\mathcal{E}_{Yu-Oh}$.

Figures (1)

  • Figure 1: Exclusivity graph of Yu-Oh set

Theorems & Definitions (26)

  • Definition 1
  • Definition 2
  • Definition 3
  • Proposition 1
  • proof
  • Definition 4
  • Definition 5
  • Proposition 2
  • proof
  • Proposition 3
  • ...and 16 more