Dirac cones induced by accidental degeneracy in photonic crystals and zero-refractive-index materials

Huang, Xueqin; Lai, Yun; Hang, Zhi Hong; Zheng, Huihuo; Chan, Che Ting

doi:10.1038/nmat3030

Cited by 870 publications

(845 citation statements)

References 29 publications

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“…This approach is especially useful for metamaterials and photonic crystals, as it opens up new lattice geometries hosting conical intersections for beams at normal incidence [18,33,34] and intersections based on degeneracies of transverse electric (TE) and transverse magnetic (TM) modes [35]. Typically the degeneracy is achieved by tuning parameters such as dielectric rod radius or filling factor in photonic crystals [36][37][38], refractive index contrast of nanoparticles [18], lattice period [39], or coupling strength between resonators [31,40].…”

Section: Designmentioning

confidence: 99%

Conical intersections for light and matter waves

Leykam

Desyatnikov

2016

Advances in Physics: X

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We review the design, theory, and applications of two dimensional periodic lattices hosting conical intersections in their energy-momentum spectrum. The best known example is the Dirac cone, where propagation is governed by an effective Dirac equation, with electron spin replaced by a "fermionic" half-integer pseudospin. However, in many systems such as metamaterials, modal symmetries result in the formation of higher order conical intersections with integer or "bosonic" pseudospin. The ability to engineer lattices with these qualitatively different singular dispersion relations opens up many applications, including superior slab lasers, generation of orbital angular momentum, zeroindex metamaterials, and quantum simulation of exotic phases of relativistic matter.

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Section: Designmentioning

confidence: 99%

Conical intersections for light and matter waves

Leykam

Desyatnikov

2016

Advances in Physics: X

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“…Metamaterials have produced many exotic effects such as negative refraction [1][2][3][4], zero refractive index [5][6][7][8], sub-wavelength imaging superlens [9], electromagnetic cloaking [10][11][12][13]. The novel properties of metamaterials come from the artificial atoms which can flexibly tailor the electric and magnetic response.…”

Section: Introductionmentioning

confidence: 99%

Terahertz Metamaterial Modulators Based on Absorption

Zhou¹,

Ding²,

Jin³

et al. 2011

PIER

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Abstract-Metamaterial absorbers can perfectly absorb an incident wave in a narrow frequency band. In this paper, metamaterial absorbers are used to construct a terahertz modulator. By controlling the carrier density in the n-doped semiconductor spacer between a patterned metallic superstructure and a metallic ground with different applied voltage bias, the absorption varies sensitively, and the reflected wave amplitude acting as the modulated signal can be strongly modulated. Two types of modulators are investigated, one of which possesses an array of metallic crosses as the superstructure, and the other has a complementary superstructure. Compared with the former, the latter may give a better modulation performance.

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“…1 as our focus. Different from the triply degenerate case11, there is no flat branch intersection in our model. Four cones are formed by the linear branches and touches at one point at the frequency of ω 0 = 892.77 Hz with tolerance of 10 −6 .These four eigen degenerate states are shown in Figs.…”

Section: Resultsmentioning

confidence: 71%

“…The defects in this system cannot be detected at the frequencies near ω 0 [shown in Fig. 6(b2)], which can be regarded as a type of cloaking1112. The negative refraction also can be realized in Fig.…”

Section: Resultsmentioning

confidence: 99%

“…Under certain circumstances, those Dirac cones can be mapped into a zero-refractive-index material, whose parameters (e.g. permittivity and permeability in electromagnetics, effective mass density and reciprocal of bulk modulus in acoustics) are both vanishing1112131415. It provides a new method to achieve zero-index materials with simple photonic and phononic crystals so that many interesting properties such as wave shaping and cloaking are easily demonstrated12131617.…”

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confidence: 99%

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Accidental degeneracy of double Dirac cones in a phononic crystal

Chen

et al. 2014

Sci Rep

100

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Artificial honeycomb lattices with Dirac cone dispersion provide a macroscopic platform to study the massless Dirac quasiparticles and their novel geometric phases. In this paper, a quadruple-degenerate state is achieved at the center of the Brillouin zone in a two-dimensional honeycomb lattice phononic crystal, which is a result of accidental degeneracy of two double-degenerate states. In the vicinity of the quadruple-degenerate state, the dispersion relation is linear. Such quadruple degeneracy is analyzed by rigorous representation theory of groups. Using method, a reduced Hamiltonian is obtained to describe the linear Dirac dispersion relations of this quadruple-degenerate state, which is well consistent with the simulation results. Near such accidental degeneracy, we observe some unique properties in wave propagating, such as defect-insensitive propagating character and the Talbot effect.

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Dirac cones induced by accidental degeneracy in photonic crystals and zero-refractive-index materials

Cited by 870 publications

References 29 publications

Conical intersections for light and matter waves

Conical intersections for light and matter waves

Terahertz Metamaterial Modulators Based on Absorption

Accidental degeneracy of double Dirac cones in a phononic crystal

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