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Metamaterials based on high refractive index rods
Auteur(s): Vynck Kevin, Felbacq D., Centeno Emmanuel, Cabuz A., Cassagne D.
Conference: Meta 08, NATO Advanced Research Workshop (Marrakech, MA, 2008-05-07)
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Homogenization of negative-index composite metamaterials: A two-step approach
Auteur(s): Cabuz A., Felbacq D., Cassagne D.
(Article) Publié:
Physical Review Letters, vol. 98 p.037403 (2007)
Ref HAL: hal-00437953_v1
PMID 17358725
DOI: 10.1103/PhysRevLett.98.037403
WoS: 000243587200064
Exporter : BibTex | endNote
48 Citations
Résumé: We present a two-step homogenization method for composite metamaterials. First, each layer of wires or resonators is homogenized as a slab with negative permittivity or permeability, respectively. Second, the single negative stack which results is homogenized to form the effective medium. Comparing the predictions of the first and second step can serve as a gauge of the homogeneity of the composite. We thus take a gradual approach to homogenization, asking not whether, but to what extent a composite metamaterial approaches the sought after effective medium. Our two-step approach can also capture phenomena which otherwise may be wrongly attributed to effective medium behavior. We illustrate by qualitatively reproducing and reinterpreting a set of experimental data from the literature.
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All-angle phase matching condition and backward second-harmonic localization in nonlinear photonic crystals
Auteur(s): Centeno Emmanuel, Felbacq D., Cassagne D.
(Article) Publié:
Physical Review Letters, vol. 98 p.263903 (2007)
Ref HAL: hal-00437532_v1
PMID 17678092
DOI: 10.1103/PhysRevLett.98.263903
WoS: 000247625100024
Exporter : BibTex | endNote
26 Citations
Résumé: We demonstrate an isotropic phase matching in properly designed nonlinear two-dimensional photonic crystals. In addition, by combining left- and right-handed properties at the fundamental and second-harmonic frequencies, we obtain a backward second-harmonic generation. These two properties lead to an unusual second-harmonic localization effect in perfect lattice photonic crystals.
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Designing waveguides and microcavities in hybrid architectures based on direct and inverse opals - art. no. 659319
Auteur(s): Vynck Kevin, Qiu G., Cassagne D., Centeno Emmanuel
Conference: Conference on Photonic Materials, Devices and Applications II (Maspalomas (SPAIN), ES, 2007-05-02)
Actes de conférence: Photonic Materials, Devices, and Applications II, vol. 6593 p.59319-59319 (2007)
Ref HAL: hal-00437307_v1
Exporter : BibTex | endNote
Résumé: In the past few years, self assembly colloidal structures based on opals have received large attention because they offer a cost-effective way of designing ultra-compact and efficient all-optical devices. In this study, we present various approaches to design waveguides and cavities in three-dimensional opal-based photonic crystals. Three practical designs with size suitable to telecommunication technologies at 1.55 mu m are presented. First, we show that the creation of a hexagonal superlattice of defects in a direct monolayer of spheres yields the opening of a photonic band. gap below the light line so that the inclusion of a linear defect in this structure enables the creation of a theoretically lossless waveguide. We also propose the design of a waveguide in a 2D-3D heterostructure, where a graphite lattice of rods is sandwiched between two inverse opal claddings. This structure enables single-mode waveguiding with a maximal bandwidth of 129 nm. Finally, we give the design of a linear cavity, whose quality factor is increased by a factor of 5 when surrounded by an inverse opal.
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Controlling emission and planar propagation of light with direct and inverse opal-based heterostructures,
Auteur(s): Qiu Gaoxin, Vynck Kevin, Cassagne D., Centeno Emmanuel
Conference: Photonic and Electromagnetic Crystal Structures (PECS) VII (Monterey, US, 2007-04-08)
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Bending the flow of light with graded photonic crystals
Auteur(s): Centeno Emmanuel, Vynck Kevin, Cassagne D.
Conference: Photonic and Electromagnetic Crystal Structures (PECS) VII (Monterey, US, 2007-04-08)
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