Conception de cônes de Dirac quasi-isotrope dans des cristaux photoniques unidimentionnels membranaires: Design of quasi-isotropic Dirac cones in 1D photonic crystal slabs

Florian Dubois; Thierry Deschamps; Sebastien Cueff; Xavier Letartre; Pierre Viktorovitch; Hai Nguyen

Conception de cônes de Dirac quasi-isotrope dans des cristaux photoniques unidimentionnels membranaires: Design of quasi-isotropic Dirac cones in 1D photonic crystal slabs

Florian Dubois, Thierry Deschamps, Sebastien Cueff, Xavier Letartre, Pierre Viktorovitch, Hai Nguyen

Research output: Conference proceeding/Chapter in Book/Report/ › Conference Paper › peer-review

Abstract

Dirac cones are linear dispersions located a peculiar high-symmetry point in reciprocal space. Usually, on the vicinity of these points, the dispersion is flat but can be made linear by mean of degeneracy of at least two optical modes, leading to a conical dispersion. Dirac cones provide unusual properties and have been generated in several 2D photonic crystals. This is also possible in 1D photonic crystal, however the high anisotropy of the structure geometry usually leads to high anisotropy in optical properties such as dispersion. This anisotropy can be reduced by mean of three-modes degeneracy with proper optimization. In this article, we are presenting a design of 1D photonic crystal slab exhibiting a Dirac cone with low anisotropy at X point, under the light line.

Original language	English
Title of host publication	Optique Toulouse 2018, Société Française d'Optique (SFO)
Publication status	Published - 3 Jul 2018

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title = "Conception de c{\^o}nes de Dirac quasi-isotrope dans des cristaux photoniques unidimentionnels membranaires: Design of quasi-isotropic Dirac cones in 1D photonic crystal slabs",

abstract = "Dirac cones are linear dispersions located a peculiar high-symmetry point in reciprocal space. Usually, on the vicinity of these points, the dispersion is flat but can be made linear by mean of degeneracy of at least two optical modes, leading to a conical dispersion. Dirac cones provide unusual properties and have been generated in several 2D photonic crystals. This is also possible in 1D photonic crystal, however the high anisotropy of the structure geometry usually leads to high anisotropy in optical properties such as dispersion. This anisotropy can be reduced by mean of three-modes degeneracy with proper optimization. In this article, we are presenting a design of 1D photonic crystal slab exhibiting a Dirac cone with low anisotropy at X point, under the light line.",

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Conception de cônes de Dirac quasi-isotrope dans des cristaux photoniques unidimentionnels membranaires: Design of quasi-isotropic Dirac cones in 1D photonic crystal slabs. / Dubois, Florian; Deschamps, Thierry; Cueff, Sebastien et al.
Optique Toulouse 2018, Société Française d'Optique (SFO). 2018.

Research output: Conference proceeding/Chapter in Book/Report/ › Conference Paper › peer-review

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T1 - Conception de cônes de Dirac quasi-isotrope dans des cristaux photoniques unidimentionnels membranaires

T2 - Design of quasi-isotropic Dirac cones in 1D photonic crystal slabs

AU - Dubois, Florian

AU - Deschamps, Thierry

AU - Cueff, Sebastien

AU - Letartre, Xavier

AU - Viktorovitch, Pierre

AU - Nguyen, Hai

PY - 2018/7/3

Y1 - 2018/7/3

N2 - Dirac cones are linear dispersions located a peculiar high-symmetry point in reciprocal space. Usually, on the vicinity of these points, the dispersion is flat but can be made linear by mean of degeneracy of at least two optical modes, leading to a conical dispersion. Dirac cones provide unusual properties and have been generated in several 2D photonic crystals. This is also possible in 1D photonic crystal, however the high anisotropy of the structure geometry usually leads to high anisotropy in optical properties such as dispersion. This anisotropy can be reduced by mean of three-modes degeneracy with proper optimization. In this article, we are presenting a design of 1D photonic crystal slab exhibiting a Dirac cone with low anisotropy at X point, under the light line.

AB - Dirac cones are linear dispersions located a peculiar high-symmetry point in reciprocal space. Usually, on the vicinity of these points, the dispersion is flat but can be made linear by mean of degeneracy of at least two optical modes, leading to a conical dispersion. Dirac cones provide unusual properties and have been generated in several 2D photonic crystals. This is also possible in 1D photonic crystal, however the high anisotropy of the structure geometry usually leads to high anisotropy in optical properties such as dispersion. This anisotropy can be reduced by mean of three-modes degeneracy with proper optimization. In this article, we are presenting a design of 1D photonic crystal slab exhibiting a Dirac cone with low anisotropy at X point, under the light line.

M3 - Conference Paper

BT - Optique Toulouse 2018, Société Française d'Optique (SFO)

ER -

Conception de cônes de Dirac quasi-isotrope dans des cristaux photoniques unidimentionnels membranaires: Design of quasi-isotropic Dirac cones in 1D photonic crystal slabs

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