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Main Authors: Salem, Vinícius, Silva, Alison A., Andrade, Fabiano M.
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2506.20075
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author Salem, Vinícius
Silva, Alison A.
Andrade, Fabiano M.
author_facet Salem, Vinícius
Silva, Alison A.
Andrade, Fabiano M.
contents We study the entanglement properties of randomized mixed hypergraph states, extending the concept of randomized mixed graph states to encompass hypergraph-based quantum states. In our model, imperfect generalized multi-qubit gates are applied probabilistically, simulating experimentally realistic noisy gate operations where gate fidelity decreases with increasing hyperedge order. We analyze bipartite and genuine multipartite entanglement of these mixed multi-qubit states. Numerical results for various hypergraph configurations with up to four qubits reveal rich, sometimes nonmonotonic entanglement behavior stemming from the interplay between hyperedge structure and gate imperfections. We derive analytical expressions for entanglement witnesses based on randomization overlap for new hypergraph families. Our findings contribute to understanding entanglement resilience under gate imperfections, providing insight into the experimental implementation of hypergraph states in noisy quantum devices.
format Preprint
id arxiv_https___arxiv_org_abs_2506_20075
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Randomized hypergraph states and their entanglement properties
Salem, Vinícius
Silva, Alison A.
Andrade, Fabiano M.
Quantum Physics
We study the entanglement properties of randomized mixed hypergraph states, extending the concept of randomized mixed graph states to encompass hypergraph-based quantum states. In our model, imperfect generalized multi-qubit gates are applied probabilistically, simulating experimentally realistic noisy gate operations where gate fidelity decreases with increasing hyperedge order. We analyze bipartite and genuine multipartite entanglement of these mixed multi-qubit states. Numerical results for various hypergraph configurations with up to four qubits reveal rich, sometimes nonmonotonic entanglement behavior stemming from the interplay between hyperedge structure and gate imperfections. We derive analytical expressions for entanglement witnesses based on randomization overlap for new hypergraph families. Our findings contribute to understanding entanglement resilience under gate imperfections, providing insight into the experimental implementation of hypergraph states in noisy quantum devices.
title Randomized hypergraph states and their entanglement properties
topic Quantum Physics
url https://arxiv.org/abs/2506.20075