Spontaneous Emission Control in Micropillar Cavities Containing a Fluorescent Molecular Dye | Zendy

Adawi A. M. | Zendy; Cadby A. | Zendy; Connolly L. G. | Zendy; Hung W.C. | Zendy; Dean R. | Zendy; Tahraoui A. | Zendy; Fox A. M. | Zendy; Cullis A. G. | Zendy; Sanvitto D. | Zendy; Skolnick M. S. | Zendy; Lidzey D. G. | Zendy

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Spontaneous Emission Control in Micropillar Cavities Containing a Fluorescent Molecular Dye

Author(s) -

Adawi A. M.,

Cadby A.,

Connolly L. G.,

Hung W.C.,

Dean R.,

Tahraoui A.,

Fox A. M.,

Cullis A. G.,

Sanvitto D.,

Skolnick M. S.,

Lidzey D. G.

Publication year - 2006

Publication title -

advanced materials

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 10.707

H-Index - 527

eISSN - 1521-4095

pISSN - 0935-9648

DOI - 10.1002/adma.200502099

Subject(s) - materials science , fluorescence , optoelectronics , fabrication , luminescence , quantum cryptography , spontaneous emission , photon , quantum optics , nanotechnology , optics , quantum , laser , quantum information , physics , medicine , alternative medicine , pathology , quantum mechanics

The fabrication of micropillar microcavities containing a fluorescent organic dye is reported. Scanning near‐field optical microscopy of the luminescence from such structures (see figure and cover) confirms that a significant increase in radiative rate occurs as a result of the reduced optical‐mode volume. Such structures may eventually permit efficient single‐photon light sources operating at room temperature to be developed for quantum‐cryptography and quantum‐computing applications.

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