Strongly coupled slow-light polaritons in one-dimensional disordered localized states View Full Text


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Article Info

DATE

2013-06-17

AUTHORS

Jie Gao, Sylvain Combrie, Baolai Liang, Peter Schmitteckert, Gaelle Lehoucq, Stephane Xavier, XinAn Xu, Kurt Busch, Diana L. Huffaker, Alfredo De Rossi, Chee Wei Wong

ABSTRACT

Cavity quantum electrodynamics advances the coherent control of a single quantum emitter with a quantized radiation field mode, typically piecewise engineered for the highest finesse and confinement in the cavity field. This enables the possibility of strong coupling for chip-scale quantum processing, but till now is limited to few research groups that can achieve the precision and deterministic requirements for these polariton states. Here we observe for the first time coherent polariton states of strong coupled single quantum dot excitons in inherently disordered one-dimensional localized modes in slow-light photonic crystals. Large vacuum Rabi splittings up to 311 μeV are observed, one of the largest avoided crossings in the solid-state. Our tight-binding models with quantum impurities detail these strong localized polaritons, spanning different disorder strengths, complementary to model-extracted pure dephasing and incoherent pumping rates. Such disorder-induced slow-light polaritons provide a platform towards coherent control, collective interactions and quantum information processing. More... »

PAGES

1994

References to SciGraph publications

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  • Identifiers

    URI

    http://scigraph.springernature.com/pub.10.1038/srep01994

    DOI

    http://dx.doi.org/10.1038/srep01994

    DIMENSIONS

    https://app.dimensions.ai/details/publication/pub.1050888044

    PUBMED

    https://www.ncbi.nlm.nih.gov/pubmed/23771242


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    36 coherent control
    37 collective interactions
    38 confinement
    39 control
    40 coupling
    41 crossing
    42 crystals
    43 dephasing
    44 deterministic requirements
    45 different disorder strengths
    46 disorder strength
    47 electrodynamics
    48 emitters
    49 excitons
    50 field
    51 field modes
    52 finesse
    53 group
    54 high finesse
    55 impurities
    56 incoherent pumping rate
    57 information processing
    58 interaction
    59 large vacuum Rabi splitting
    60 localized states
    61 mode
    62 model
    63 photonic crystals
    64 platform
    65 polariton states
    66 polaritons
    67 possibility
    68 precision
    69 processing
    70 pumping rate
    71 pure dephasing
    72 quantum dot exciton
    73 quantum electrodynamics
    74 quantum emitters
    75 quantum impurity
    76 quantum processing
    77 radiation field mode
    78 rate
    79 requirements
    80 research groups
    81 single quantum dot exciton
    82 single quantum emitters
    83 slow-light photonic crystal
    84 splitting
    85 state
    86 strength
    87 strong coupling
    88 vacuum Rabi splitting
    89 μeV
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