Inelastic Scattering of Photon Pairs in Qubit Arrays with Subradiant States

Yongguan Ke; Alexander V. Poshakinskiy; Chaohong Lee; Yuri S. Kivshar; Alexander N. Poddubny

doi:10.1103/PhysRevLett.123.253601

Inelastic Scattering of Photon Pairs in Qubit Arrays with Subradiant States

Yongguan Ke, Alexander V. Poshakinskiy, Chaohong Lee, Yuri S. Kivshar, Alexander N. Poddubny

Research output: Contribution to journal › Article › peer-review

77 Citations (Scopus)

Abstract

We develop a rigorous theoretical approach for analyzing inelastic scattering of photon pairs in arrays of two-level qubits embedded into a waveguide. Our analysis reveals a strong enhancement of the scattering when the energy of incoming photons resonates with the double-excited subradiant states. We identify the role of different double-excited states in the scattering, such as superradiant, subradiant, and twilight states, as a product of single-excitation bright and subradiant states. Importantly, the N-excitation subradiant states can be engineered only if the number of qubits exceeds 2N. Both the subradiant and twilight states can generate long-lived photon-photon correlations, paving the way to storage and processing of quantum information.

Original language	English
Article number	253601
Journal	Physical Review Letters
Volume	123
Issue number	25
DOIs	https://doi.org/10.1103/PhysRevLett.123.253601
Publication status	Published - 19 Dec 2019

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title = "Inelastic Scattering of Photon Pairs in Qubit Arrays with Subradiant States",

abstract = "We develop a rigorous theoretical approach for analyzing inelastic scattering of photon pairs in arrays of two-level qubits embedded into a waveguide. Our analysis reveals a strong enhancement of the scattering when the energy of incoming photons resonates with the double-excited subradiant states. We identify the role of different double-excited states in the scattering, such as superradiant, subradiant, and twilight states, as a product of single-excitation bright and subradiant states. Importantly, the N-excitation subradiant states can be engineered only if the number of qubits exceeds 2N. Both the subradiant and twilight states can generate long-lived photon-photon correlations, paving the way to storage and processing of quantum information.",

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AU - Ke, Yongguan

AU - Poshakinskiy, Alexander V.

AU - Lee, Chaohong

AU - Kivshar, Yuri S.

AU - Poddubny, Alexander N.

PY - 2019/12/19

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N2 - We develop a rigorous theoretical approach for analyzing inelastic scattering of photon pairs in arrays of two-level qubits embedded into a waveguide. Our analysis reveals a strong enhancement of the scattering when the energy of incoming photons resonates with the double-excited subradiant states. We identify the role of different double-excited states in the scattering, such as superradiant, subradiant, and twilight states, as a product of single-excitation bright and subradiant states. Importantly, the N-excitation subradiant states can be engineered only if the number of qubits exceeds 2N. Both the subradiant and twilight states can generate long-lived photon-photon correlations, paving the way to storage and processing of quantum information.

AB - We develop a rigorous theoretical approach for analyzing inelastic scattering of photon pairs in arrays of two-level qubits embedded into a waveguide. Our analysis reveals a strong enhancement of the scattering when the energy of incoming photons resonates with the double-excited subradiant states. We identify the role of different double-excited states in the scattering, such as superradiant, subradiant, and twilight states, as a product of single-excitation bright and subradiant states. Importantly, the N-excitation subradiant states can be engineered only if the number of qubits exceeds 2N. Both the subradiant and twilight states can generate long-lived photon-photon correlations, paving the way to storage and processing of quantum information.

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DO - 10.1103/PhysRevLett.123.253601

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VL - 123

JO - Physical Review Letters

JF - Physical Review Letters

IS - 25

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ER -

Inelastic Scattering of Photon Pairs in Qubit Arrays with Subradiant States

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