Exact approach for spatiotemporal dynamics of spontaneous emissions in waveguide quantum electrodynamic systems

Yuecheng Shen; Zihao Chen; Yu He; Zhaohui Li; Jung Tsung Shen

doi:10.1364/JOSAB.35.000607

Exact approach for spatiotemporal dynamics of spontaneous emissions in waveguide quantum electrodynamic systems

Yuecheng Shen, Zihao Chen, Yu He, Zhaohui Li, Jung Tsung Shen

Department of Electrical & Systems Engineering

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

15 Scopus citations

Abstract

We propose an exact analytical approach to study the single-photon spontaneous emissions in waveguide quantum electrodynamic (QED) systems. Using the ab initio evolution technique, our approach provides a universal framework to investigate the full spatiotemporal dynamics of the atomic response, the cavity response, and the emitted photonic wave functions. The validity of the analytical approach is numerically confirmed. Our rigorous approach can be extensively applied to more complicated waveguide QED architectures. Moreover, such an approach can readily incorporate the effects of dissipations and has the potential to tremendously facilitate the design of spontaneous emission-driven quantum nanophotonic devices in the dissipative regime.

Original language	English
Pages (from-to)	607-616
Number of pages	10
Journal	Journal of the Optical Society of America B: Optical Physics
Volume	35
Issue number	3
DOIs	https://doi.org/10.1364/JOSAB.35.000607
State	Published - Mar 1 2018

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abstract = "We propose an exact analytical approach to study the single-photon spontaneous emissions in waveguide quantum electrodynamic (QED) systems. Using the ab initio evolution technique, our approach provides a universal framework to investigate the full spatiotemporal dynamics of the atomic response, the cavity response, and the emitted photonic wave functions. The validity of the analytical approach is numerically confirmed. Our rigorous approach can be extensively applied to more complicated waveguide QED architectures. Moreover, such an approach can readily incorporate the effects of dissipations and has the potential to tremendously facilitate the design of spontaneous emission-driven quantum nanophotonic devices in the dissipative regime.",

author = "Yuecheng Shen and Zihao Chen and Yu He and Zhaohui Li and Shen, {Jung Tsung}",

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AU - Shen, Yuecheng

AU - Chen, Zihao

AU - He, Yu

AU - Li, Zhaohui

AU - Shen, Jung Tsung

PY - 2018/3/1

Y1 - 2018/3/1

N2 - We propose an exact analytical approach to study the single-photon spontaneous emissions in waveguide quantum electrodynamic (QED) systems. Using the ab initio evolution technique, our approach provides a universal framework to investigate the full spatiotemporal dynamics of the atomic response, the cavity response, and the emitted photonic wave functions. The validity of the analytical approach is numerically confirmed. Our rigorous approach can be extensively applied to more complicated waveguide QED architectures. Moreover, such an approach can readily incorporate the effects of dissipations and has the potential to tremendously facilitate the design of spontaneous emission-driven quantum nanophotonic devices in the dissipative regime.

AB - We propose an exact analytical approach to study the single-photon spontaneous emissions in waveguide quantum electrodynamic (QED) systems. Using the ab initio evolution technique, our approach provides a universal framework to investigate the full spatiotemporal dynamics of the atomic response, the cavity response, and the emitted photonic wave functions. The validity of the analytical approach is numerically confirmed. Our rigorous approach can be extensively applied to more complicated waveguide QED architectures. Moreover, such an approach can readily incorporate the effects of dissipations and has the potential to tremendously facilitate the design of spontaneous emission-driven quantum nanophotonic devices in the dissipative regime.

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JO - Journal of the Optical Society of America B: Optical Physics

JF - Journal of the Optical Society of America B: Optical Physics

IS - 3

ER -

Exact approach for spatiotemporal dynamics of spontaneous emissions in waveguide quantum electrodynamic systems

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