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All-optical polariton transistor

Author

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  • D. Ballarini

    (Istituto Italiano di Tecnologia, IIT-Lecce
    NNL, Istituto Nanoscienze—CNR)

  • M. De Giorgi

    (Istituto Italiano di Tecnologia, IIT-Lecce
    NNL, Istituto Nanoscienze—CNR)

  • E. Cancellieri

    (Fisica Teorica de la Materia Condensada, Universidad Autonoma de Madrid
    Laboratoire Kastler Brossel, Université Pierre et Marie Curie-Paris 6, École Normale Supérieure et CNRS)

  • R. Houdré

    (Institut de Physique de la Matière Condensée, Faculté des Sciences de Base, Bâtiment de Physique)

  • E. Giacobino

    (Laboratoire Kastler Brossel, Université Pierre et Marie Curie-Paris 6, École Normale Supérieure et CNRS)

  • R. Cingolani

    (Istituto Italiano di Tecnologia, IIT-Lecce)

  • A. Bramati

    (Laboratoire Kastler Brossel, Université Pierre et Marie Curie-Paris 6, École Normale Supérieure et CNRS)

  • G. Gigli

    (Istituto Italiano di Tecnologia, IIT-Lecce
    NNL, Istituto Nanoscienze—CNR
    University of Salento)

  • D. Sanvitto

    (Istituto Italiano di Tecnologia, IIT-Lecce
    NNL, Istituto Nanoscienze—CNR)

Abstract

Although optical technology provides the best solution for the transmission of information, all-optical devices must satisfy several qualitative criteria to be used as logic elements. In particular, cascadability is difficult to obtain in optical systems, and it is assured only if the output of one stage is in the correct form to drive the input of the next stage. Exciton-polaritons, which are composite particles resulting from the strong coupling between excitons and photons, have recently demonstrated huge non-linearities and unique propagation properties. Here we show that polariton fluids moving in the plane of the microcavity can operate as input and output of an all-optical transistor, obtaining up to 19 times amplification and demonstrating the cascadability of the system. Moreover, the operation as an AND/OR gate is shown, validating the connectivity of multiple transistors in the microcavity plane and opening the way to the implementation of polariton integrated circuits.

Suggested Citation

  • D. Ballarini & M. De Giorgi & E. Cancellieri & R. Houdré & E. Giacobino & R. Cingolani & A. Bramati & G. Gigli & D. Sanvitto, 2013. "All-optical polariton transistor," Nature Communications, Nature, vol. 4(1), pages 1-8, June.
  • Handle: RePEc:nat:natcom:v:4:y:2013:i:1:d:10.1038_ncomms2734
    DOI: 10.1038/ncomms2734
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    Cited by:

    1. Joel Kuttruff & Marco Romanelli & Esteban Pedrueza-Villalmanzo & Jonas Allerbeck & Jacopo Fregoni & Valeria Saavedra-Becerril & Joakim Andréasson & Daniele Brida & Alexandre Dmitriev & Stefano Corni &, 2023. "Sub-picosecond collapse of molecular polaritons to pure molecular transition in plasmonic photoswitch-nanoantennas," Nature Communications, Nature, vol. 14(1), pages 1-10, December.
    2. Behnia, S. & Ziaei, J. & Khodavirdizadeh, M. & Hosseinnezhad, P. & Rahimi, F., 2018. "Quantum chaos analysis for characterizing a photonic resonator lattice," Chaos, Solitons & Fractals, Elsevier, vol. 109(C), pages 154-159.
    3. Tianchuang Luo & Batyr Ilyas & A. von Hoegen & Youjin Lee & Jaena Park & Je-Geun Park & Nuh Gedik, 2024. "Time-of-flight detection of terahertz phonon-polariton," Nature Communications, Nature, vol. 15(1), pages 1-8, December.
    4. Madeleine Laitz & Alexander E. K. Kaplan & Jude Deschamps & Ulugbek Barotov & Andrew H. Proppe & Inés García-Benito & Anna Osherov & Giulia Grancini & Dane W. deQuilettes & Keith A. Nelson & Moungi G., 2023. "Uncovering temperature-dependent exciton-polariton relaxation mechanisms in hybrid organic-inorganic perovskites," Nature Communications, Nature, vol. 14(1), pages 1-11, December.

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