Electromagnetic field structure and normal mode coupling in photonic crystal nanocavities | Zendy

C. Dineen | Zendy; Jens Förstner | Zendy; Armis R. Zakharian | Zendy; Jerome V. Moloney | Zendy; S. W. Koch | Zendy

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Electromagnetic field structure and normal mode coupling in photonic crystal nanocavities

Author(s) -

C. Dineen,

Jens Förstner,

Armis R. Zakharian,

Jerome V. Moloney,

S. W. Koch

Publication year - 2005

Publication title -

optics express

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 1.394

H-Index - 271

ISSN - 1094-4087

DOI - 10.1364/opex.13.004980

Subject(s) - photonic crystal , optics , finite difference time domain method , electromagnetic field , coupling (piping) , field (mathematics) , physics , electromagnetic radiation , materials science , quantum mechanics , mathematics , pure mathematics , metallurgy

The electromagnetic field of a high-quality photonic crystal nanocavity is computed using the finite difference time domain method. It is shown that a separatrix occurs in the local energy flux discriminating between predominantly near and far field components. Placing a two-level atom into the cavity leads to characteristic field modifications and normal-mode splitting in the transmission spectra.

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