In this study, tight-binding formalism is applied to a photonic crystal coupled cavity structure in order to investigate the characteristics of ultra slow light modes. Eigen-mode splitting is observed and resulting group indices obtained from the tight-binding formalism and numerical results are compared. © 2011 IEEE
We study efficient injectors for coupling light from z-invariant ridge waveguides into slow Bloch mo...
8 pages, 4 figuresInternational audiencePhysical mechanisms involved in the light confinement in pho...
In this paper, we design a waveguide on photonic crystal slab for propagation of low-dispersion slow...
We report on the combination of slow light propagation with the resonance properties of a photonic c...
Photonic crystals are three dimensional periodic structures having the property of reflecting the el...
We have experimentally observed the eigenmode splitting due to coupling of the evanescent defect mod...
We consider the coupling into a slow mode that appears near an inflection point in the band structur...
Cataloged from PDF version of article.We present a detailed study of the localized coupled-cavity m...
We present a detailed study of the localized coupled-cavity modes in 2-D dielectric photonic crystal...
This Letter introduces an enhanced cavity-waveguide coupling architecture based upon slow-light engi...
Wideband dispersion-free slow light in chirped-slot photonic-crystal coupled waveguides is proposed ...
This paper was published in Optics Letters and is made available as an electronic reprint with the p...
Slow light has established itself over the past decade as one of the most active research fields in ...
Slow light plays an outstanding role in a wide variety of optical applications, from quantum informa...
We investigate the photonic properties of one dimensional photonic crystals realized on Silicon On I...
We study efficient injectors for coupling light from z-invariant ridge waveguides into slow Bloch mo...
8 pages, 4 figuresInternational audiencePhysical mechanisms involved in the light confinement in pho...
In this paper, we design a waveguide on photonic crystal slab for propagation of low-dispersion slow...
We report on the combination of slow light propagation with the resonance properties of a photonic c...
Photonic crystals are three dimensional periodic structures having the property of reflecting the el...
We have experimentally observed the eigenmode splitting due to coupling of the evanescent defect mod...
We consider the coupling into a slow mode that appears near an inflection point in the band structur...
Cataloged from PDF version of article.We present a detailed study of the localized coupled-cavity m...
We present a detailed study of the localized coupled-cavity modes in 2-D dielectric photonic crystal...
This Letter introduces an enhanced cavity-waveguide coupling architecture based upon slow-light engi...
Wideband dispersion-free slow light in chirped-slot photonic-crystal coupled waveguides is proposed ...
This paper was published in Optics Letters and is made available as an electronic reprint with the p...
Slow light has established itself over the past decade as one of the most active research fields in ...
Slow light plays an outstanding role in a wide variety of optical applications, from quantum informa...
We investigate the photonic properties of one dimensional photonic crystals realized on Silicon On I...
We study efficient injectors for coupling light from z-invariant ridge waveguides into slow Bloch mo...
8 pages, 4 figuresInternational audiencePhysical mechanisms involved in the light confinement in pho...
In this paper, we design a waveguide on photonic crystal slab for propagation of low-dispersion slow...
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