Cizhe Fang scite author profile

The realization of high-Q resonances in a silicon metasurface with various broken-symmetry blocks is reported. Theoretical analysis reveals that the sharp resonances in the metasurfaces originate from symmetry-protected bound in the continuum (BIC) and the magnetic dipole dominates these peculiar states. A smaller size of the defect in the broken-symmetry block gives rise to the resonance with a larger Q factor. Importantly, this relationship can be tuned by changing the structural parameter, resulting from the modulation of the topological configuration of BICs. Consequently, a Q factor of more than 3,000 can be easily achieved by optimizing dimensions of the nanostructure. At this sharp resonance, the intensity of the third harmonic generation signal in the patterned structure can be 368 times larger than that of the flat silicon film. The proposed strategy and underlying theory can open up new avenues to realize ultrasharp resonances, which may promote the development of the potential meta-devices for nonlinearity, lasing action, and sensing.

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Efficient Second‐Harmonic Generation from Silicon Slotted Nanocubes with Bound States in the Continuum

Fang

Yang

Yuan

et al. 2022

Laser & Photonics Reviews

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Optical materials with centrosymmetry, such as silicon and germanium, are unfortunately absent of second‐order nonlinear optical responses, hindering their developments in efficient nonlinear optical devices. Here, a design with an array of slotted nanocubes is proposed to realize remarkable second harmonic generation (SHG) from the centrosymmetric silicon, which takes advantage of enlarged surface second‐order nonlinearity, strengthened electric field over the surface of the air‐slot, as well as the resonance enhancement by the bound states in the continuum. Compared with that from the array of silicon nanocubes without air‐slots, SHG from the slotted nanocube array is improved by more than two orders of magnitude. The experimentally measured SHG efficiency of the silicon slotted nanocube array is high as 1.8 × 10−4 W−1, which is expected to be further engineered by modifying the air‐slot geometries. The result can provide a new strategy to expand nonlinear optical effects and devices of centrosymmetric materials.

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Localized plasmon resonances for black phosphorus bowtie nanoantennas at terahertz frequencies

et al. 2018

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Effects of Post Annealing on Electrical Performance of Polycrystalline Ga2O3 Photodetector on Sapphire

Liu

Han

et al. 2020

Nanoscale Res Lett

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Effects of post annealing on the physical and electrical properties of solar-blind polycrystalline gallium oxide (Ga 2 O 3) ultraviolet photodetectors on the sapphire substrate are investigated. The grain size of poly-Ga 2 O 3 becomes larger with the post annealing temperature (PAT) increasing from 800°C to 1000°C, but it gets smaller with further raising PAT to 1100°C. A blue shift is observed at the absorption edge of the transmittance spectra of Ga 2 O 3 on sapphire as increasing PAT, due to the incorporation of Al from the sapphire substrate into Ga 2 O 3 to form (Al x Ga 1-x) 2 O 3. The high-resolution X-ray diffraction and transmittance spectra measurement indicate that the substitutional Al composition and bandgap of (Al x Ga 1-x) 2 O 3 annealed at 1100°C can be above 0.30 and 5.10 eV, respectively. The R max of the sample annealed at 1000°C increases about 500% compared to the as-deposited device, and the sample annealed at 1000°C has short rise time and decay time of 0.148 s and 0.067 s, respectively. This work may pave a way for the fabrication of poly-Ga 2 O 3 ultraviolet photodetector and find a method to improve responsivity and speed of response.

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Nonlinear Bound States in the Continuum of Etchless Lithium Niobate Metasurfaces

et al. 2020

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Optical bound states in the continuum (BICs) have recently been studied in a wide range of material systems, where light is perfectly confined in the continuous spectrum of radiating modes. In this paper, we reported periodic nonlinear metasurfaces on the etchless LiNbO3 platform, realizing the enhancement of second-order generation (SHG). All-dielectric heterogeneous metasurfaces are constructed by patterning a low-refractive-index polymer on a high refractive-index LiNbO3 film without etching. Due to BICs, light is localized in the LiNbO3 film where the excellent optical second-order nonlinearity is exploited. We demonstrated that with normal incident waves, symmetry-protected BICs are formed at near-infrared wavelength showing a vanishing linewidth in the transmission spectrum. In addition, to manifest the invisible BICs to detectable supercavity resonances at normal incidence, asymmetry is introduced into the system, degrading the symmetry-protected BICs to sharp resonances with a high Q factor. Furthermore, the second harmonic generation (SHG) of the etchless lithium niobate metasurface is studied, predicting that the SHG efficiency can exceed 10-3 with 30 MW/cm 2 of the pump intensity. The proposed strategy without facing the fabrication challenge of etching single-crystal LiNbO3 film opens a new avenue for the utilization of BIC in nonlinear optics of all-dielectric heterogeneous metasurfaces.

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Cizhe Fang

High-<i>Q</i> resonances governed by the quasi-bound states in the continuum in all-dielectric metasurfaces

Efficient Second‐Harmonic Generation from Silicon Slotted Nanocubes with Bound States in the Continuum

Localized plasmon resonances for black phosphorus bowtie nanoantennas at terahertz frequencies

Effects of Post Annealing on Electrical Performance of Polycrystalline Ga2O3 Photodetector on Sapphire

Nonlinear Bound States in the Continuum of Etchless Lithium Niobate Metasurfaces

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