Coupling of a single diamond nanocrystal to a whispering-gallery microcavity: Photon transport benefitting from rayleigh scattering

Yong Chun Liu; Yun Feng Xiao; Bei Bei Li; Xue Feng Jiang; Yan Li; Qihuang Gong

doi:10.1103/PhysRevA.84.011805

Coupling of a single diamond nanocrystal to a whispering-gallery microcavity: Photon transport benefitting from rayleigh scattering

Yong Chun Liu
, Yun Feng Xiao
, Bei Bei Li
, Xue Feng Jiang
, Yan Li
, Qihuang Gong

Physics

Binghamton University

Peking University

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

54 Scopus citations

Abstract

We study the Rayleigh scattering induced by a diamond nanocrystal in a whispering-gallery-microcavity-waveguide coupling system and find that it plays a significant role in the photon transportation. On the one hand, this study provides insight into future solid-state cavity quantum electrodynamics aimed at understanding strong-coupling physics. On the other hand, benefitting from this Rayleigh scattering, effects such as dipole-induced transparency and strong photon antibunching can occur simultaneously. As a potential application, this system can function as a high-efficiency photon turnstile. In contrast to B. Dayan [ScienceSCIEAS0036-807510.1126/science.1152261 319, 1062 (2008)], the photon turnstiles proposed here are almost immune to the nanocrystal's azimuthal position.

Original language	English
Article number	011805
Journal	Physical Review A - Atomic, Molecular, and Optical Physics
Volume	84
Issue number	1
DOIs	https://doi.org/10.1103/PhysRevA.84.011805
State	Published - Jul 25 2011

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title = "Coupling of a single diamond nanocrystal to a whispering-gallery microcavity: Photon transport benefitting from rayleigh scattering",

abstract = "We study the Rayleigh scattering induced by a diamond nanocrystal in a whispering-gallery-microcavity-waveguide coupling system and find that it plays a significant role in the photon transportation. On the one hand, this study provides insight into future solid-state cavity quantum electrodynamics aimed at understanding strong-coupling physics. On the other hand, benefitting from this Rayleigh scattering, effects such as dipole-induced transparency and strong photon antibunching can occur simultaneously. As a potential application, this system can function as a high-efficiency photon turnstile. In contrast to B. Dayan [ScienceSCIEAS0036-807510.1126/science.1152261 319, 1062 (2008)], the photon turnstiles proposed here are almost immune to the nanocrystal's azimuthal position.",

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AU - Liu, Yong Chun

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AU - Jiang, Xue Feng

AU - Li, Yan

AU - Gong, Qihuang

PY - 2011/7/25

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N2 - We study the Rayleigh scattering induced by a diamond nanocrystal in a whispering-gallery-microcavity-waveguide coupling system and find that it plays a significant role in the photon transportation. On the one hand, this study provides insight into future solid-state cavity quantum electrodynamics aimed at understanding strong-coupling physics. On the other hand, benefitting from this Rayleigh scattering, effects such as dipole-induced transparency and strong photon antibunching can occur simultaneously. As a potential application, this system can function as a high-efficiency photon turnstile. In contrast to B. Dayan [ScienceSCIEAS0036-807510.1126/science.1152261 319, 1062 (2008)], the photon turnstiles proposed here are almost immune to the nanocrystal's azimuthal position.

AB - We study the Rayleigh scattering induced by a diamond nanocrystal in a whispering-gallery-microcavity-waveguide coupling system and find that it plays a significant role in the photon transportation. On the one hand, this study provides insight into future solid-state cavity quantum electrodynamics aimed at understanding strong-coupling physics. On the other hand, benefitting from this Rayleigh scattering, effects such as dipole-induced transparency and strong photon antibunching can occur simultaneously. As a potential application, this system can function as a high-efficiency photon turnstile. In contrast to B. Dayan [ScienceSCIEAS0036-807510.1126/science.1152261 319, 1062 (2008)], the photon turnstiles proposed here are almost immune to the nanocrystal's azimuthal position.

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Coupling of a single diamond nanocrystal to a whispering-gallery microcavity: Photon transport benefitting from rayleigh scattering

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