Perfect magnetic mirror based on magnetic dipole scattering in all-dielectric resonators

Yang, Yu; Li, Yong-Qian; Salas‐Montiel, Rafael; Qiao, Dayong

doi:10.1063/5.0085397

Cited by 4 publications

(1 citation statement)

References 28 publications

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“…Positioning the MD resonance at this state allows to obtain ideal magnetic dipole scattering [20] and design a "magnetic mirror" with zero phase shift of reflected electric field in relation to the incident light wave. [21] This paper provides a detailed discussion of the construction method for a "magnetic mirror" tailored to the operational wavelength of 1550 nm.…”

Section: Introductionmentioning

confidence: 99%

Perfect Mirror Effects in Metasurfaces of Silicon Nanodisks at Telecom Wavelength

Matiushechkina,

Evlyukhin,

Zenin

et al. 2024

Advanced Optical Materials

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This article explores the design and optimization of nanodisk metasurfaces for achieving high reflectivity at a defined wavelength. The telecom wavelength of 1550 nm is particularly focused, selected for its potential applications in next‐generation gravitational wave detectors. At this wavelength, the research goes toward the development of thin, low‐loss, high‐reflective coatings, where the metasurface can be chosen as an alternative. An optimization process for the dimensional parameters of nanodisks is proposed based on a systematic tuning approach, which facilitates the realization of various configurations of high‐reflective metasurfaces. The concept of the “magnetic mirror effect” is examined in detail, where the magnetic dipole resonance aligns with the anapole state. Additionally, high reflectivity at the electric dipole resonance (“electric mirror effect”) and at the excitation of several multipole moments is explored, including high‐order modes. This variety of configurations affords more flexibility in the phase manipulation of the reflected beam. Furthermore, the potential experimental realization of mirror effects is discussed by exploring the structure in the surrounding medium with a refractive index of nd = 1.4. This research platform provides a promising tool for the fabrication of high‐reflective nanodisk metasurfaces and demonstrates its applicability across various fields.

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Section: Introductionmentioning

confidence: 99%

Perfect Mirror Effects in Metasurfaces of Silicon Nanodisks at Telecom Wavelength

Matiushechkina,

Evlyukhin,

Zenin

et al. 2024

Advanced Optical Materials

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Heterodimers with various bonding positions: Synthesis, plasmon coupling and surface enhanced Raman scattering

Zhang

Zhang²,

Luo

et al. 2023

Optical Materials

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Engineering and detection of light scattering directionalities in dewetted nanoresonators through dark-field scanning microscopy

Granchi¹,

Fagiani

Salvalaglio

et al. 2023

Opt. Express

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Dewetted, SiGe nanoparticles have been successfully exploited for light management in the visible and near-infrared, although their scattering properties have been so far only qualitatively studied. Here, we demonstrate that the Mie resonances sustained by a SiGe-based nanoantenna under tilted illumination, can generate radiation patterns in different directions. We introduce a novel dark-field microscopy setup that exploits the movement of the nanoantenna under the objective lens to spectrally isolate Mie resonances contribution to the total scattering cross-section during the same measurement. The knowledge of islands’ aspect ratio is then benchmarked by 3D, anisotropic phase-field simulations and contributes to a correct interpretation of the experimental data.

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Perfect magnetic mirror based on magnetic dipole scattering in all-dielectric resonators

Cited by 4 publications

References 28 publications

Perfect Mirror Effects in Metasurfaces of Silicon Nanodisks at Telecom Wavelength

Perfect Mirror Effects in Metasurfaces of Silicon Nanodisks at Telecom Wavelength

Heterodimers with various bonding positions: Synthesis, plasmon coupling and surface enhanced Raman scattering

Engineering and detection of light scattering directionalities in dewetted nanoresonators through dark-field scanning microscopy

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