Atom-atom interactions around the band edge of a photonic crystal waveguide

Jonathan D. Hood; Akihisa Goban; Ana Asenjo-Garcia; Mingwu Lu; Su Peng Yu; Darrick E. Chang; H. J. Kimble

doi:10.1073/pnas.1603788113

Atom-atom interactions around the band edge of a photonic crystal waveguide

Jonathan D. Hood, Akihisa Goban, Ana Asenjo-Garcia, Mingwu Lu, Su Peng Yu, Darrick E. Chang, H. J. Kimble^*

^*この研究の対応する著者

研究成果: Article › 査読

136 被引用数 (Scopus)

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Tailoring the interactions between quantum emitters and single photons constitutes one of the cornerstones of quantum optics. Coupling a quantum emitter to the band edge of a photonic crystal waveguide (PCW) provides a unique platform for tuning these interactions. In particular, the cross-over from propagating fields E(x) ∝ e^±ikxx outside the bandgap to localized fields E(x) ∝ e^-κx|x| within the bandgap should be accompanied by a transition from largely dissipative atom-atom interactions to a regime where dispersive atom-atom interactions are dominant. Here, we experimentally observe this transition by shifting the band edge frequency of the PCW relative to the D₁ line of atomic cesium for N̄ = 3.0 ± 0.5 atoms trapped along the PCW. Our results are the initial demonstration of this paradigm for coherent atom-atom interactions with low dissipation into the guided mode.

本文言語	English
ページ（範囲）	10507-10512
ページ数	6
ジャーナル	Proceedings of the National Academy of Sciences of the United States of America
巻	113
号	38
DOI	https://doi.org/10.1073/pnas.1603788113
出版ステータス	Published - 2016 9月 20
外部発表	はい

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10.1073/pnas.1603788113

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title = "Atom-atom interactions around the band edge of a photonic crystal waveguide",

abstract = "Tailoring the interactions between quantum emitters and single photons constitutes one of the cornerstones of quantum optics. Coupling a quantum emitter to the band edge of a photonic crystal waveguide (PCW) provides a unique platform for tuning these interactions. In particular, the cross-over from propagating fields E(x) ∝ e±ikxx outside the bandgap to localized fields E(x) ∝ e-κx|x| within the bandgap should be accompanied by a transition from largely dissipative atom-atom interactions to a regime where dispersive atom-atom interactions are dominant. Here, we experimentally observe this transition by shifting the band edge frequency of the PCW relative to the D1 line of atomic cesium for {\=N} = 3.0 ± 0.5 atoms trapped along the PCW. Our results are the initial demonstration of this paradigm for coherent atom-atom interactions with low dissipation into the guided mode.",

keywords = "Atomic physics, Nanophotonics, Quantum optics",

author = "Hood, {Jonathan D.} and Akihisa Goban and Ana Asenjo-Garcia and Mingwu Lu and Yu, {Su Peng} and Chang, {Darrick E.} and Kimble, {H. J.}",

note = "Funding Information: We acknowledge the contributions of O. J. Painter and his group, including for fabrication and clean room facilities. We also acknowledge A. Burgers, C.-L. Hung, J. Laurat, M. J. Martin, A. C. McClung, J. A. Muniz, and L. Peng. Funding was provided by National Science Foundation (NSF) Grant PHY 1205729; by the Air Force Office of Scientific Research Multidisciplinary University Research Initiative (MURI) for Quantum Memories in Photon-Atomic Solid-State Systems (QuMPASS); by the Institute for Quantum Information and Matter (IQIM), NSF Physics Frontiers Center with support of the Moore Foundation; by the Office of Naval Research (ONR) Award N00014-16-1-2399; by the ONR MURI for Quantum Opto-Mechanics with Atoms and Nanostructured Diamond (QOMAND); and by the Department of Defense National Security Science and Engineering Faculty Fellowship (NSSEFF) Program. A.G. was supported by the Nakajima Foundation. A.A.-G. and M.L. were supported by the IQIM Postdoctoral Fellowship. A.A.-G. also acknowledges support from Global Marie Curie Fellowship LANTERN 655701. S.-P.Y. acknowledges support from the International Fulbright Science and Technology Award. D.E.C. acknowledges support from Fundacio Privada Cellex Barcelona, Marie Curie CIG ATOMNANO, MINECO Severo Ochoa Grant SEV-2015-0522, and ERC Starting Grant FoQAL. Publisher Copyright: {\textcopyright} 2016, National Academy of Sciences. All rights reserved.",

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doi = "10.1073/pnas.1603788113",

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T1 - Atom-atom interactions around the band edge of a photonic crystal waveguide

AU - Hood, Jonathan D.

AU - Goban, Akihisa

AU - Asenjo-Garcia, Ana

AU - Lu, Mingwu

AU - Yu, Su Peng

AU - Chang, Darrick E.

AU - Kimble, H. J.

N1 - Funding Information: We acknowledge the contributions of O. J. Painter and his group, including for fabrication and clean room facilities. We also acknowledge A. Burgers, C.-L. Hung, J. Laurat, M. J. Martin, A. C. McClung, J. A. Muniz, and L. Peng. Funding was provided by National Science Foundation (NSF) Grant PHY 1205729; by the Air Force Office of Scientific Research Multidisciplinary University Research Initiative (MURI) for Quantum Memories in Photon-Atomic Solid-State Systems (QuMPASS); by the Institute for Quantum Information and Matter (IQIM), NSF Physics Frontiers Center with support of the Moore Foundation; by the Office of Naval Research (ONR) Award N00014-16-1-2399; by the ONR MURI for Quantum Opto-Mechanics with Atoms and Nanostructured Diamond (QOMAND); and by the Department of Defense National Security Science and Engineering Faculty Fellowship (NSSEFF) Program. A.G. was supported by the Nakajima Foundation. A.A.-G. and M.L. were supported by the IQIM Postdoctoral Fellowship. A.A.-G. also acknowledges support from Global Marie Curie Fellowship LANTERN 655701. S.-P.Y. acknowledges support from the International Fulbright Science and Technology Award. D.E.C. acknowledges support from Fundacio Privada Cellex Barcelona, Marie Curie CIG ATOMNANO, MINECO Severo Ochoa Grant SEV-2015-0522, and ERC Starting Grant FoQAL. Publisher Copyright: © 2016, National Academy of Sciences. All rights reserved.

PY - 2016/9/20

Y1 - 2016/9/20

N2 - Tailoring the interactions between quantum emitters and single photons constitutes one of the cornerstones of quantum optics. Coupling a quantum emitter to the band edge of a photonic crystal waveguide (PCW) provides a unique platform for tuning these interactions. In particular, the cross-over from propagating fields E(x) ∝ e±ikxx outside the bandgap to localized fields E(x) ∝ e-κx|x| within the bandgap should be accompanied by a transition from largely dissipative atom-atom interactions to a regime where dispersive atom-atom interactions are dominant. Here, we experimentally observe this transition by shifting the band edge frequency of the PCW relative to the D1 line of atomic cesium for N̄ = 3.0 ± 0.5 atoms trapped along the PCW. Our results are the initial demonstration of this paradigm for coherent atom-atom interactions with low dissipation into the guided mode.

AB - Tailoring the interactions between quantum emitters and single photons constitutes one of the cornerstones of quantum optics. Coupling a quantum emitter to the band edge of a photonic crystal waveguide (PCW) provides a unique platform for tuning these interactions. In particular, the cross-over from propagating fields E(x) ∝ e±ikxx outside the bandgap to localized fields E(x) ∝ e-κx|x| within the bandgap should be accompanied by a transition from largely dissipative atom-atom interactions to a regime where dispersive atom-atom interactions are dominant. Here, we experimentally observe this transition by shifting the band edge frequency of the PCW relative to the D1 line of atomic cesium for N̄ = 3.0 ± 0.5 atoms trapped along the PCW. Our results are the initial demonstration of this paradigm for coherent atom-atom interactions with low dissipation into the guided mode.

KW - Atomic physics

KW - Nanophotonics

KW - Quantum optics

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U2 - 10.1073/pnas.1603788113

DO - 10.1073/pnas.1603788113

M3 - Article

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VL - 113

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JO - Proceedings of the National Academy of Sciences of the United States of America

JF - Proceedings of the National Academy of Sciences of the United States of America

IS - 38

ER -

Atom-atom interactions around the band edge of a photonic crystal waveguide

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