Experimentally Finding Dense Subgraphs Using a Time-Bin Encoded Gaussian Boson Sampling Device

S. Sempere-Llagostera; R. B. Patel; I. A. Walmsley; W. S. Kolthammer

doi:10.1103/PhysRevX.12.031045

Physical Review X (Sep 2022)

Experimentally Finding Dense Subgraphs Using a Time-Bin Encoded Gaussian Boson Sampling Device

S. Sempere-Llagostera,
R. B. Patel,
I. A. Walmsley,
W. S. Kolthammer

Affiliations

S. Sempere-Llagostera
R. B. Patel
I. A. Walmsley
W. S. Kolthammer

DOI: https://doi.org/10.1103/PhysRevX.12.031045
Journal volume & issue: Vol. 12, no. 3
p. 031045

Abstract

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Gaussian boson sampling is a quantum computing concept based on drawing samples from a multimode nonclassical Gaussian state using photon-number resolving detectors. It was initially posed as a near-term approach to achieve quantum advantage, and several applications have been proposed since, including the calculation of graph features. For the first time, we use a time-bin encoded interferometer to implement Gaussian boson sampling experimentally and extract samples to enhance the search for dense subgraphs in a graph. Our results indicate an improvement over classical methods for subgraphs of sizes three and four in a graph containing ten nodes. In addition, we numerically explore the role of imperfections in the optical circuit and on the performance of the algorithm.

Published in Physical Review X

ISSN: 2160-3308 (Online)
Publisher: American Physical Society
Country of publisher: United States
LCC subjects: Science: Physics
Website: https://journals.aps.org/prx/

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