Comparative Study Of Optical Quantum Swap Gates Using qINTERCONNECT
Author's Department
Physics Department
Second Author's Department
Physics Department
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https://doi.org/10.1109/PN62551.2024.10621799
Document Type
Research Article
Publication Title
2024 Photonics North, PN 2024
Publication Date
1-1-2024
doi
10.1109/PN62551.2024.10621799
Abstract
In this study, we delve into optimizing optical quantum swap gate designs, which are crucial in the advancement of quantum computing. Using qINTERCONNECT, we conduct a comparative analysis of swap gate designs, including those based on equivalent circuits like CNOT gates and others utilizing dedicated architectures. Our aim is to compare the balance between operational efficiency and error tolerance in these varying designs, so as to measure their potential for scalability. Through simulations grounded in real-world fabrication parameters, we assess the fidelity and success probabilities of each design approach. Our findings indicate that while equivalent circuit-based designs are traditionally favored in other fields of quantum computing, dedicated swap gate architectures may offer enhanced robustness and scalability in optics. This study provides a comparative understanding of different swap gate designs, elucidating the relative merits and drawbacks of current designs, and offering insights that are relevant for practical applications in quantum computing.
Recommended Citation
APA Citation
Mikhail, T.
&
Swillam, M.
(2024). Comparative Study Of Optical Quantum Swap Gates Using qINTERCONNECT. 2024 Photonics North, PN 2024,
10.1109/PN62551.2024.10621799
https://fount.aucegypt.edu/faculty_journal_articles/6207
MLA Citation
Mikhail, Thomas J.G., et al.
"Comparative Study Of Optical Quantum Swap Gates Using qINTERCONNECT." 2024 Photonics North, PN 2024, 2024,
https://fount.aucegypt.edu/faculty_journal_articles/6207
Comments
Conference Paper. Record derived from SCOPUS.