Electromechanical control of nitrogen-vacancy defect emission using graphene NEMS

Active control of optical fields at the nanoscale is difficult to achieve. Here, the authors fabricate an on-chip graphene NEMS suspended a few tens of nanometres above nitrogen vacancy centres and demonstrate electromechanical control of the photons emitted by electrostatic tuning of the graphene N...

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Autores principales: Antoine Reserbat-Plantey, Kevin G. Schädler, Louis Gaudreau, Gabriele Navickaite, Johannes Güttinger, Darrick Chang, Costanza Toninelli, Adrian Bachtold, Frank H. L. Koppens
Formato: article
Lenguaje:EN
Publicado: Nature Portfolio 2016
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Acceso en línea:https://doaj.org/article/40d5676f9017401ea1aecace734a4483
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Sumario:Active control of optical fields at the nanoscale is difficult to achieve. Here, the authors fabricate an on-chip graphene NEMS suspended a few tens of nanometres above nitrogen vacancy centres and demonstrate electromechanical control of the photons emitted by electrostatic tuning of the graphene NEMS position.