Generating and manipulating high dimensional path entanglement on a silicon photonic chip

Gregory A. Howland

doi:10.1117/12.2674879

19 July 2023 Generating and manipulating high dimensional path entanglement on a silicon photonic chip

Gregory A. Howland

Proceedings Volume PC12633, Photonics for Quantum 2023; PC126330S (2023) https://doi.org/10.1117/12.2674879
Event: Photonics for Quantum, 2023, Rochester, New York, United States

Abstract

Silicon photonic foundries offer one path for scaling quantum photonic integrated circuits to useful sizes composed of many circuit elements. I will describe our group’s work using the AIM Photonics Foundry to create sources of high-dimensional entanglement across many waveguide paths by exciting arrays of microring-resonator photon pair sources in parallel. Aspects of our work include efficient schemes to certify and quantify entanglement, multi-mode components for manipulating high-dimensional states of light, and advanced packaging techniques.

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Gregory A. Howland "Generating and manipulating high dimensional path entanglement on a silicon photonic chip", Proc. SPIE PC12633, Photonics for Quantum 2023, PC126330S (19 July 2023); https://doi.org/10.1117/12.2674879

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KEYWORDS

Quantum entanglement

Quantum chips

Silicon photonics

Quantum photonics

Quantum processes

Quantum channels

Quantum correlations

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