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Main Authors: Håkansson, Emil, Piveteau, Amelie, Seguinard, Alban, Sadiq, Muhammad, Bourennane, Mohamed, Gühne, Otfried, Plávala, Martin
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2412.09659
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author Håkansson, Emil
Piveteau, Amelie
Seguinard, Alban
Sadiq, Muhammad
Bourennane, Mohamed
Gühne, Otfried
Plávala, Martin
author_facet Håkansson, Emil
Piveteau, Amelie
Seguinard, Alban
Sadiq, Muhammad
Bourennane, Mohamed
Gühne, Otfried
Plávala, Martin
contents We present a derivation and experimental implementation of a dimension-dependent contextuality inequality to certify both the quantumness and dimensionality of a given system. Existing methods for certification of the dimension of quantum system can be cheated by using larger classical systems, creating a potential loophole in these benchmarks. Our approach uses contextuality inequalities that cannot be violated by classical systems thus closing the previous loophole. We validate this framework experimentally with photons, observing violations of a CHSH-based contextuality inequality and surpassing the qutrit bound of the CGLMP4-based contextuality inequality. These show that contextuality can be used for noise-robust tests of the number of qubits.
format Preprint
id arxiv_https___arxiv_org_abs_2412_09659
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Experimental implementation of dimension-dependent contextuality inequality
Håkansson, Emil
Piveteau, Amelie
Seguinard, Alban
Sadiq, Muhammad
Bourennane, Mohamed
Gühne, Otfried
Plávala, Martin
Quantum Physics
We present a derivation and experimental implementation of a dimension-dependent contextuality inequality to certify both the quantumness and dimensionality of a given system. Existing methods for certification of the dimension of quantum system can be cheated by using larger classical systems, creating a potential loophole in these benchmarks. Our approach uses contextuality inequalities that cannot be violated by classical systems thus closing the previous loophole. We validate this framework experimentally with photons, observing violations of a CHSH-based contextuality inequality and surpassing the qutrit bound of the CGLMP4-based contextuality inequality. These show that contextuality can be used for noise-robust tests of the number of qubits.
title Experimental implementation of dimension-dependent contextuality inequality
topic Quantum Physics
url https://arxiv.org/abs/2412.09659