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A one-dimensional photonic-crystal nanocavity incorporating a fluorescent molecular dye
7.J. S. Foresi, P. R. Villeneuve, J. Ferrera, E. R. Thoen, G. Steinmeyer, S. Fan, J. D. Joannopoulos, L. C. Kimerling, Henry I. Smith, and E. P. Ippen, Nature (London) 390, 143 (1997).
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We model the optical properties of a SiN based one-dimensional waveguidephotonic crystal nanocavity with three tapered air holes as a function of the photonic crystalmirror fill factor using finite difference time domain calculations. We show that the -factor of this type of cavity has a strong dependence on the mirror fill factor, with a -factor as high as 35 000 predicted. Experimental studies on a range of representative structures whose surface is coated with a layer of a fluorescent dye confirm our modeling and reveal that such structures are characterized by a single optical mode having a -factor of 2000.
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