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表面等离激元量子信息应用研究进展

李明 陈阳 郭光灿 任希锋

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表面等离激元量子信息应用研究进展

李明, 陈阳, 郭光灿, 任希锋

Recent progress of the application of surface plasmon polariton in quantum information processing

Li Ming, Chen Yang, Guo Guang-Can, Ren Xi-Feng
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  • 近年来表面等离激元得到了越来越多的关注和研究,得益于其能把电磁场束缚在金属-介质界面附近的亚波长尺度范围内.本文回顾了近年来表面等离激元在量子信息领域中的理论和实验研究,包括表面等离激元的基本量子性质、表面等离激元量子回路、在量子尺度下与物质的相互作用及其潜在应用.量子表面等离激元开辟了对表面等离激元基本物理性质研究的新方向,可以应用于高度集成化的量子集成光学回路,同时也可以用来增强光与量子发光体的相互作用.
    Surface plasmon polariton has attracted more and more attention and has been studied extensively in the recent decades, owing to its ability to confine the electro-magnetic field to a sub-wavelength scale near the metal-dielectric interface. On one hand, the tightly confined surface plasmonic modes can reduce the size of integrated optical device beyond the diffraction limit; on the other hand, it provides an approach to enhancing the interaction between light and matter. With the development of experimental and numerical simulation techniques, its investigation at a quantum level has become possible. In the recent experiments, scientists have realized quantum interference between single plasmons in a nanoscale waveguide circuit and achieved the strong coupling between photons and single molecules by using plasmonic structure, which demonstrates its superiority over the traditional optics. Here, we review the theoretical and experimental researches of surface plasmon polariton in the field of quantum information processing. First, we introduce the experiments on the basic quantum properties of surface plasmons, including the preservation of photonic entanglement, wave-particle duality and quantum statistical property. Second, we review the research work relating to the generation, manipulation and detection of surface plasmons in a quantum plasmonic integrated circuit. Then, we present the research of the interaction between surface plasmons and single quantum emitters and its potential applications. Finally, we make a discussion on how the intrinsic loss affects the quantum interference of single plasmons and the coupling between quantum emitters. The collision and combination of quantum optical and plasmonic fields open up possibilities for investigating the fundamental quantum physical properties of surface plasmons. It can be used to make ultra-compact quantum photonic integrated circuits and enhance the interaction strength between photons and quantum emitters.
      通信作者: 任希锋, renxf@ustc.edu.cn
    • 基金项目: 国家自然科学基金(批准号:11374289,61590932)、国家重点研发计划(批准号:2016YFA0301700)、中央高校基本科研业务费和集成光电子学国家重点联合实验室开放基金(批准号:IOSKL2015KF12)资助的课题.
      Corresponding author: Ren Xi-Feng, renxf@ustc.edu.cn
    • Funds: Project supported by the National Natural Science Foundation of China (Grant Nos. 11374289, 61590932), the National Key Rresearch and Development Program, China (Grant No. 2016YFA0301700), the Fundamental Research Funds for the Central Universities, China and the Open Fund of the State Key Laboratory on Integrated Optoelectronics (Grant No. IOSKL2015KF12).
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  • [1]

    Raether H 1988 Surface Plasmons on Smooth Surfaces (Berlin, Heidelberg: Springer)

    [2]

    Barnes W L, Dereux A, Ebbesen T W 2003 Nature 424 824

    [3]

    Gramotnev D K, Bozhevolnyi 2010 Nature Photon. 4 83

    [4]

    Takahara J, Yamagisha S, Taki H, Morimoto A, Kobayashi T 1997 Opt. Lett. 22 475

    [5]

    Fang N, Lee H, Sun C, Zhang X 2005 Science 308 534

    [6]

    Takahara J 2009 In Plasmonic Nanoguides and Circuits (Ch. 2) (Pan Stanford Publishing)

    [7]

    Wang L L 2012 Ph. D. Dissertation (Hefei: University of Science and Technology of China) (in Chinese) [王鲁橹 2012 博士学位论文 (合肥: 中国科学技术大学)]

    [8]

    Sadeghi S M, West R G 2011 Nejat A Nanotechnology 22 405202

    [9]

    Nie S, Emory S R 1997 Science 275 1102

    [10]

    Fleischmannand M, Hendra P J, Mc Quillan A 1974 J Chem. Phys. Lett. 26 163

    [11]

    Jeanmaire D L, van Duyne R P 1977 J. Electroanalyt. Chem. Interfac. Electrochem. 84 1

    [12]

    Berini P, de Leon J 2012 Nature Photon. 6 16

    [13]

    Bergman D J, Stockman M I 2003 Phys. Rev. Lett. 90 027402

    [14]

    Giannini V, Fernndez-Dominguez A I, Heck S C, Maier S A 2011 Chem. Rev. 111 3888

    [15]

    Anker J N, Hall W P, Lyandres O, Shah N C, Zhao J, van Duyne R P 2008 Nat. Mater. 7 442

    [16]

    Pines D A 1953 Phys. Rev. 92 626

    [17]

    Hopfield J J 1958 Phys. Rev. 112 1555

    [18]

    Elson J M, Ritchie R H 1971 Phys. Rev. B 4 4129

    [19]

    Waks E, Sridharan D 2010 Phys. Rev. A 82 043845

    [20]

    Tame M S, Lee C, Lee J, Ballester D, Paternostro M, Zayats A V, Kim M S 2008 Phys. Rev. Lett. 101 190504

    [21]

    Altewischer E, van Exter M P, Woerdman J P 2002 Nature 418 304

    [22]

    Ebbesen T W, Lezec H J, Ghaemi H F, Thio T, Wolff P A 1998 Nature 391 667

    [23]

    Fasel S, Robin F, Moreno E, Erni D, Gisin N, Zbinden H 2005 Phys. Rev. Lett. 94 110501

    [24]

    Ren X F, Guo G P, Huang Y F, Li C F, Guo G C 2006 Europhys. Lett. 76 753

    [25]

    Guo G P, Ren X F, Huang Y F, Li C F, Ou Z Y, Guo G C 2007 Phys. Lett. A 361 218

    [26]

    Huck A, Smolka S, Lodahl P, Srensen A S, Boltasseva A, Janousek J, Andersen U L 2009 Phys. Rev. Lett. 102 246802

    [27]

    Ren X F, Guo G P, Huang Y F, Wang Z W, Zhang P, Guo G C 2008 Europhys. Lett. 84 30005

    [28]

    Tang J S, Li Y L, Xu X Y, Xiang G Y, Li C F, Guo G C 2012 Nat. Photon. 6 600

    [29]

    Akimov A V, Mukherjee A, Yu C L, Chang D E, Zibrov A S, Hemmer P R, Lukin M D 2007 Nature 450 402

    [30]

    Kolesov R, Grotz B, Balasubramanian G, Sthr R J, Nicolet A A L, Hemmer P R, Jelezko F, Wrachtrup J 2009 Nat. Phys. 5 470

    [31]

    Piazza L U C A, Lummen T T A, Quinonez E, Murooka Y, Reed B W, Barwick B, Carbone F 2015 Nat. Commun. 6 6407

    [32]

    Di Martino G, Sonnefraud Y, Kna-Cohen S, Tame M, Ozdemir S K, Kim M S, Maier S A 2012 Nano Lett. 12 2504

    [33]

    Falk A L, Koppens F H, Yu C L, Kang K, de Leon Snapp N, Akimov A V, Park H 2009 Nat. Phys. 5 475

    [34]

    Zou C L, Sun F W, Dong C H, Ren X F, Chen X D, Cui J M, Han Z F, Guo G C 2011 Opt. Lett. 36 3630

    [35]

    Dong C H, Zou C L, Ren X F, Guo G C, Sun F W 2012 Appl. Phys. Lett. 100 041104

    [36]

    Xiong X, Zou C L, Ren X F, Guo G C 2014 IEEE Photon. Tech. Lett. 26 1726

    [37]

    Wei H, Wang Z, Tian X, Kall M, Xu H 2011 Nat. Commun. 2 387

    [38]

    Holtfrerich M W, Dowran M, Davidson R, Lawrie B J, Pooser R C, Marino A M 2016 Optica 3 985

    [39]

    De Leon N P, Lukin M D, Park H 2012 IEEE J. Select. Topics in Quantum Electron. 18 1781

    [40]

    Otto A 1968 Zeitschrift fr Physik 216 398

    [41]

    Kano H, Mizuguchi S, Kawata S 1998 JOSAB 15 1381

    [42]

    Guo X, Ma Y G, Wang Y P, Tong L M 2013 Laser Photon. Rev. 7 855

    [43]

    Dong C H, Ren X F, Yang R, Duan J Y, Guan J G, Guo G C, Guo G P 2009 Appl. Phys. Lett. 95 221109

    [44]

    Guo X, Qiu M, Bao J, Wiley B J, Yang Q, Zhang X, Tong L 2009 Nano Lett. 9 4515

    [45]

    Kauranen M, Zayats A V 2012 Nat. Photon. 6 737

    [46]

    Grosse N B, Heckmann J, Woggon U 2012 Phys. Rev. Lett. 108 136802

    [47]

    Politi A, Cryan M J, Rarity J G, Yu S, O'brien J L 2008 Science 320 646

    [48]

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    [49]

    Heeres R W, Kouwenhoven L P, Zwiller V 2013 Nat. Nanotech. 8 719

    [50]

    Fakonas J S, Lee H, Kelaita Y A, Atwater H A 2014 Nat. Photon. 8 317

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    Cai Y J, Li M, Ren X F, Zou C L, Xiong X, Lei H L, Liu B H, Guo G P, Guo G C 2014 Phys. Rev. Appl. 2 014004

    [52]

    Di Martino G, Sonnefraud Y, Tame M S, Kna-Cohen S, Dieleman F, zdemir Ş K, Maier S A 2014 Phys. Rev. Appl. 1 034004

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    Vest B, Dheur M, Devaux E, Ebbesen T W, Baron A, Rousseau E, Hugonin J P, Greffet J, Messin G, Marquier F 2016 arXiv:161007479 [quant-ph]

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    Wang S M, Cheng Q Q, Gong, Xu P, Sun C, Li L, Li T, Zhu S N 2016 Nat. Commun. 7 11490

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    Li M, Zou C L, Ren X F, Xiong X, Cai Y J, Guo G P, Tong L M, Guo G C 2015 Nano Lett. 15 2380

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    Fan W, Lawrie B J, Pooser R C 2015 Phys. Rev. A 92 053812

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    Hood C J, Chapman M S, Lynn T W, Kimble H J 1998 Phys. Rev. Lett. 80 4157

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    Chang D E, Srensen A S, Hemmer P R, Lukin M D 2006 Phys. Rev. Lett. 97 053002

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    Drexhage K H, Kuhn H, Schfer F P 1968 Phys. Chem. 72 329

    [62]

    Purcell E M 1946 Phys. Rev. 69 674

    [63]

    Li M, Xiong X, Yu L, Zou C L, Chen Y, Liu D, Guo G C 2017 ar Xiv:170102935

    [64]

    Chang D E, Srensen A S, Hemmer P R, Lukin M D 2007 Phys. Rev. B 76 035420

    [65]

    Chang D E, Srensen A S, Demler E A, Lukin M D 2007 Nat. Phys. 3 807

    [66]

    Trgler A, Hohenester U 2008 Phys. Rev. B 77 115403

    [67]

    Curto A G, Volpe G, Taminiau T H, Kreuzer M P, Quidant R, van Hulst N F 2010 Science 329 930

    [68]

    Kinkhabwala A, Yu Z, Fan S, Avlasevich Y, Mllen K, Moerner W E 2009 Nature Photon. 3 654

    [69]

    Koenderink A F 2010 Opt. Lett. 35 4208

    [70]

    Rice P R, Brecha R J 1995 Opt. Commun. 126 230

    [71]

    Ridolfo A, Di Stefano O, Fina N, Saija R, Savasta S 2010 Phys. Rev. Lett. 105 263601

    [72]

    Yannopapas V, Paspalakis E, Vitanov N V 2009 Phys. Rev. Lett. 103 063602

    [73]

    Li Q, Wei H, Xu H X 2014 Nano Lett. 14 3358

    [74]

    Zhang S, Wei H, Bao L, Hakanson U, Halas N J, Nordlander P, Xu H X 2011 Phys. Rev. Lett. 107 096801

    [75]

    Li Q, Wei H, Xu H X 2015 Nano Lett. 15 8181

    [76]

    Anger P, Bharadwaj P, Novotny L 2006 Phys. Rev. Lett. 96 113002

    [77]

    Passmore B S, Adams D C, Ribaudo T, Wasserman D, Lyon S, Davids P, Shaner E A 2011 Nano Lett. 11 338

    [78]

    Vasa P, Wang W, Pomraenke R, Lammers M, Maiuri M, Manzoni C, Lienau C 2013 Nature Photon. 7 128

    [79]

    Chikkaraddy R, de Nijs B, Benz F, Barrow S J, Scherman O A, Rosta E, Baumberg J J 2016 Nature 535 127

    [80]

    Martin-Cano D, Gonzlez-Tudela A, Martn-Moreno L, Garcia-Vidal F J, Tejedor C, Moreno E 2011 Phys. Rev. B 84 235306

    [81]

    Lin Z R, Guo G P, Tu T, Li H O, Zou C L, Chen J X, Guo G C 2010 Phys. Rev. B 82 241401

    [82]

    Constant T J, Hornett S M, Chang D E, Hendry E 2016 Nat. Phys. 12 124

    [83]

    Gullans M, Tiecke T G, Chang D E, Feist J, Thompson J D, Cirac J I, Lukin M D 2012 Phys. Rev. Lett. 109 235309

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出版历程
  • 收稿日期:  2017-03-24
  • 修回日期:  2017-04-26
  • 刊出日期:  2017-07-05

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