Polarization-resolved characterization of plasmon waves supported by an anisotropic metasurface

Samusev, A. K.; Mukhin, I. S.; Malureanu, Radu; Takayama, Osamu; Permyakov, Dmitry V.; Sinev, Ivan S.; Баранов, Д. А.; Yermakov, Oleh; Iorsh, I. V.; Bogdanov, Andrey; Lavrinenko, Andrei V.

doi:10.1364/oe.25.032631

Cited by 34 publications

(25 citation statements)

References 67 publications

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“…Here, in Eqs. (24) and (25) for the optical and acoustic branches of the hybrid waves, respectively, we obtained similar bilayer dispersions but with mixed TE-TM terms. In Figs.…”

Section: Bilayer Hyperbolic Metasurfacessupporting

confidence: 57%

“…7(a), (b) we plot the dispersions given by Eqs. (24) and (25) for the free-standing bilayer plasmonic metasurface with a free-space interlayer (n 1 = n 2 = n 3 = 1, d = \lambda /30) at different angles \varphi . Comparing with the monolayer dispersion from Fig.…”

Section: Bilayer Hyperbolic Metasurfacesmentioning

confidence: 99%

“…All this makes TMDCs one of the best candidates for the semiconducting component of hybrid plasmonexciton metasurfaces with a strong-coupling regime at room temperature [48, 53--59]. Such hybrids supporting arXiv:1909.05427v2 [cond-mat.mes-hall] 24 Oct 2019 tive to the layers twist angle near the magic values. All this has attracted interest to twisted bilayer plasmonics with moir\' e pattern [86--91] and without it [92,93], as well as to twisted bilayer excitonics [94,95].…”

Section: Introductionmentioning

confidence: 99%

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Hyperbolic hybrid waves and optical topological transitions in few-layer anisotropic metasurfaces

Kotov

Lozovik

2019

Phys. Rev. B

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A comprehensive analysis of hybrid TM-TE polarized surface electromagnetic waves supported by different few-layer anisotropic metasurfaces is presented. A generalized 4\times 4 T-matrix formalism for arbitrary anisotropic 2D layers is developed, from which the general relations for the surface waves dispersions and scattering coefficients are deduced. Using this formalism and the effective conductivity approach, the dispersions and iso-frequency contours (IFCs) topology of the surface waves in various hybrid uniaxial metasurfaces are studied. The existence of hyperbolic plasmon-exciton polaritons in plasmon-exciton hybrids and hyperbolic acoustic waves with strong confinement in both out-of-plane and in-plane directions in uniaxial plasmonic bilayers are predicted. In plasmonic uniaxial metasurfaces on metal films, the elliptic and hyperbolic backward surface waves with negative group velocity are predicted and additional topological transitions in both elliptic and hyperbolic IFCs of the hybrid surface waves are revealed. Ultrathin twisted uniaxial plasmonic bilayers are proposed as systems with the IFCs topological transitions highly sensitive to the layers twist. The developed formalism may become a useful tool in the calculation of multifunctional few-layer metasurfaces or van der Waals heterostructures based on 2D materials with in-plane anisotropy, where the TM-TE polarization mixing must be considered. The predicted effects may open new horizons in the development and applications of planar optical technologies.plasmon-exciton polaritons (plexcitons [60]) may become a modern platform for ultrafast active control of light [38,39,61] and room temperature polariton lasing [62].Over the past few years, the 2D materials research has grown into the broader field, which includes the study of van der Waals heterostructures [63] and transdimensional materials [64]. Similar to van der Waals materials, which for some applications are more effective in a fewlayer configuration than in a monolayer one [58,59,65], the applicability of metasurfaces can be dramatically improved by going to the few layers. The multiplication of metasurface layers, while retaining a relatively low level of losses and fabrication simplicity, can provide higher efficiency and more degrees of freedom for manipulating the phase, amplitude, polarization, propagation, and dispersion of light [66,67]. Moreover, the layers interaction results in additional effects, including near-field coupling, WG modes, and multiple wave interference [68]. The WG effects enable us to control polarization and phase of the transmitted light simultaneously [69], while multiple interference effects can be used to cancel the undesired light and enhance the efficiency of antireflection coatings [70], polarization converters [71,72], and metalenses [73]. Near-field coupling generates a magnetic resonance inside the structure, which being effectively coupled to an in-layer electric resonance allows us to realize perfect absorbers and reflectors [74--76]. Such a magnetic ...

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“…Here, in Eqs. (24) and (25) for the optical and acoustic branches of the hybrid waves, respectively, we obtained similar bilayer dispersions but with mixed TE-TM terms. In Figs.…”

Section: Bilayer Hyperbolic Metasurfacessupporting

confidence: 57%

Section: Bilayer Hyperbolic Metasurfacesmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Hyperbolic hybrid waves and optical topological transitions in few-layer anisotropic metasurfaces

Kotov

Lozovik

2019

Phys. Rev. B

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“…It is convenient to present dispersion of surface waves in terms of equal frequency contours, which can be visualized in reflection experiments with a high index prism in Otto geometry. 21 We calculate reflection of a light wave in this configuration by using the transfer matrix method. 15,22 When det[Im(σ)] > 0, the equal frequency contours have an elliptic shape (Figs.…”

Section: Resultsmentioning

confidence: 99%

Plasmonic anisotropic metasurfaces: from far-field measurements to near-field properties

Yermakov¹,

Permyakov²,

Dmitriev³

et al. 2018

Metamaterials XI

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One of the most important problems of metamaterials and metasurfaces research is the derivation and the analysis of the effective parameters. They allow to examine the structure without singling out each element and it is the significant advantage for practical use. Recently, it has been shown that in virtue of a subwavelength thickness metasurfaces can be described within an effective conductivity approach. Such an effective surface conductivity describes the properties of a metasurface in the far-field as well as in the near-field. We derive and analyze the effective surface conductivity of a plasmonic resonant anisotropic metasurface theoretically and numerically. With the help of obtained effective conductivity we study the near-field properties of this metasurface, in particular, the equal frequency contours of surface waves. We show the topological transition from elliptical to hyperbolic-like dispersion regime for the surface waves on a hyperbolic metasurface. Finally, we study the influence of spatial dispersion on the eigenmodes spectrum and analyze the hyperbolic regime of a metasurface with strong spatial dispersion.

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“…An example of such in-plane anisotropy is given in Ref. [66,67], where a square lattice of gold elliptic particles support both TE-and TM-polarized surface waves with hyperbolic dispersion at the near-infrared wavelengths. On the microwave frequencies, the hyperbolic surface waves were theoretically analyzed and observed for various metasurfaces [68,69] as shown in Fig.…”

Section: Metasurfacesmentioning

confidence: 99%

Optics with hyperbolic materials [Invited]

Takayama

Lavrinenko

2019

J. Opt. Soc. Am. B

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Polarization-resolved characterization of plasmon waves supported by an anisotropic metasurface

Cited by 34 publications

References 67 publications

Hyperbolic hybrid waves and optical topological transitions in few-layer anisotropic metasurfaces

Hyperbolic hybrid waves and optical topological transitions in few-layer anisotropic metasurfaces

Plasmonic anisotropic metasurfaces: from far-field measurements to near-field properties

Optics with hyperbolic materials [Invited]

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