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Poster De Conférence Année : 2020

Non-locality and Entanglement Detection with Mermin polynomials for Grover’s algorithm and Quantum Fourier Transform

Résumé

The non-locality and thus the presence of entanglement of a quantum system can be detected using Mermin polynomials. This gives us a means to study non-locality evolution during the execution of quantum algorithms. We first consider Grover’s quantum search algorithm, noticing that states during the execution of the algorithm reach a maximum for an entanglement measure when close to a predetermined state, which allows us to search for a single optimal Mermin operator and use it to evaluate non-locality through the whole execution of Grover’s algorithm. The Quantum Fourier Transform is also studied with Mermin polynomials. A different optimal Mermin operator is searched for at each execution step, since in this case nothing hints us at finding a predetermined state maximally violating the Mermin inequality.
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hal-03221845 , version 1 (10-05-2021)

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  • HAL Id : hal-03221845 , version 1

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Henri de Boutray, Hamza Jaffali, Frédéric Holweck, Alain Giorgetti, Pierre-Alain Masson. Non-locality and Entanglement Detection with Mermin polynomials for Grover’s algorithm and Quantum Fourier Transform. Colloquium of the CNRS GDR № 3322 on Quantum Engineering, Foundations & Applications Ingénierie Quantique, des aspects Fondamentaux aux Applications, Dec 2020, Online (Electronic Conference), France. ⟨hal-03221845⟩
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