Electrical control of optical emitter relaxation pathways enabled by graphene

Electrical control of optical emitter relaxation pathways enabled by graphene

Controlling the energy flow processes and the associated energy relaxation rates of a light emitter is of fundamental interest and has many applications in the fields of quantum optics, photovoltaics, photodetection, biosensing and light emission. Advanced dielectric, semiconductor and metallic syst...

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Main Authors: Tielrooij, K. J. (Author), Ferrier, A. (Author), Badioli, M. (Author), Navickaite, G. (Author), Coop, S. (Author), Nanot, S. (Author), Kalinic, B. (Author), Cesca, T. (Author), Gaudreau, L. (Author), Centeno, A. (Author), Pesquera, A. (Author), Zurutuza, A. (Author), de Riedmatten, H. (Author), Goldner, P. (Author), Koppens, Frank Henricus Louis (Author), Orona, Lucas A. (Contributor), Ma, Qiong (Contributor), Jarillo-Herrero, Pablo (Contributor), Garcia de Abajo, F. J. (Author)
Other Authors: Massachusetts Institute of Technology. Department of Physics (Contributor)
Format: Article
Language:English
Published: Nature Publishing Group, 2015-08-11T14:07:38Z.
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