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27 results on '"Liu, Yineng"'

1. Conformal optical black hole for cavity

Author

Ba, Qingtao, Zhou, Yangyang, Li, Jue, Xiao, Wen, Ye, Longfang, Liu, Yineng, Chen, Jin-hui, and Chen, Huanyang

Subjects
Physics - Classical Physics, Physics - Optics
Abstract

Whispering gallery mode (WGM) cavity is important for exploring physics of strong light-matter interaction. Yet it suffers from the notorious radiation loss universally due to the light tunneling effect through the curved boundary. In this work, we propose and demonstrate an optical black hole (OBH) cavity based on transformation optics. The radiation loss of all WGMs in OBH cavity is completely inhibited by an infinite wide potential barrier. Besides, the WGM field outside the cavity is revealed to follow $1/r^\alpha$ decay rule based on conformal mapping, which is fundamentally different from the conventional Hankel-function distributions in a homogeneous cavity. Experimentally, a truncated OBH cavity is achieved based on the effective medium theory, and both the Q-factor enhancement and tightly confined WGM field are measured in the microwave spectra which agree well with the theoretical results. The circular OBH cavity is further applied to the arbitrary-shaped cavities including single-core and multi-core structures with high-Q factor via the conformal mapping. The OBH cavity design strategy can be generalized to resonant modes of various wave systems, such as acoustic and elastic waves, and finds applications in energy harvesting and optoelectronics.

Published
2022
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2. Anisotropic honeycomb stack metamaterials of graphene for ultrawideband terahertz absorption

Author

Liu Xueying, Xie Yinong, Qiu Jinlin, Chen Wei, Liu Yineng, and Zhu Jinfeng

Subjects
terahertz, metamaterial, anisotropic graphene aerogel, broadband absorption, Physics, QC1-999
Abstract

Graphene aerogels have implied great potential for electromagnetic wave absorption. However, the investigation of their design for broadband absorption in the terahertz (THz) range remains insufficient. Here, we propose an anisotropic honeycomb stack metamaterial (AHSM) based on graphene to achieve ultrawideband THz absorption. The absorption mechanism is elucidated using the effective medium method, offering deeper physics insights. At low THz frequencies, the impedance matching from the air to the AHSM can be improved by reducing the chemical potential of graphene for high absorption. There is a suppression of absorption at the intermediate frequencies due to constructive interference, which can be avoided by shortening the sizes of honeycomb edges. With the aim to elevate absorption at high frequencies, one can increase the stack layer number to enhance multiple reflections and destructive interference within the metastructure. Based on the above principles, we design an AHSM that achieves a broadband absorbance of over 90 % from 1 THz to 10 THz. This absorption can tolerate a wide range of incident angles for both TE and TM wave excitations. Our research will provide a theoretical guide to future experimental exploration of graphene aerogels for THz metamaterial absorber applications.

Published
2023
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5. All‐Dielectric SERS Metasurface with Strong Coupling Quasi‐BIC Energized by Transformer‐Based Deep Learning.

Author

Chen, Wei, Li, Yuyang, Liu, Yineng, Gao, Yuan, Yan, Yiming, Dong, Zhaogang, and Zhu, Jinfeng

Subjects
DEEP learning, TRANSFORMER models, SERS spectroscopy, QUASI bound states, COUPLING schemes
Abstract

Researchers have paid great attention to pursuing metal‐free nanostructures as alternatives to metallic counterparts in the field of surface‐enhanced Raman scattering (SERS) for label‐free sensing. However, these metal‐free investigations are hindered by the tiny enhancement factor of the local near field. Here, the design of all‐dielectric SERS metasurfaces is proposed with quasi‐bound states in the continuum (Q‐BIC), inspired by transformer‐based deep learning. By manipulating the incident angle, the mechanism of strong coupling Q‐BIC is introduced with a large Rabi splitting of ≈105 meV, which opens a bandgap and forms an anti‐crossing behavior. Compared to conventional approaches, the strong coupling Q‐BIC scheme not only boosts an extraordinary SERS enhancement factor of ≈107 but also extends the field‐enhancing scale up to ten‐fold. The theoretical optimization implies overwhelming dominance versus the conventional metallic nanostructure design for SERS. The study denotes an approach to utilize the strong coupling effects of Q‐BIC in all‐dielectric SERS metasurfaces and will provide essential design guides for more powerful sensing applications based on SERS. [ABSTRACT FROM AUTHOR]

Published
2024
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6. Conformal optical black hole for cavity

Author

Ba, Qingtao, primary, Zhou, Yangyang, additional, Li, Jue, additional, Xiao, Wen, additional, Ye, Longfang, additional, Liu, Yineng, additional, Chen, Jin-hui, additional, and Chen, Huanyang, additional

Published
2022
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7. Improving resolution of superlens based on solid immersion mechanism.

Author

Hao, Zhanlei, Zhou, Yangyang, Wu, Bei, Liu, Yineng, and Chen, Huanyang

Subjects
WHISPERING gallery modes, HIGH resolution imaging, REFRACTIVE index
Abstract

Super-resolution imaging with superlens has been one of the fundamental research topics. Unfortunately, the resolution of superlens is inevitably restrained by material loss. To address the problem, we introduce the solid immersion mechanism into the slab superlens and the cylindrical superlens. The proposed solid immersion slab superlens (SISSL) and the solid immersion cylindrical superlens (SICSL) can improve the resolution by converting evanescent wave to propagating wave using high refractive index materials. From the perspective of applications, the cylindrical superlens with finite cross section and the ability of magnification or demagnification has more advantages than the slab superlens. Therefore, we focus on demonstrating analytically the super-resolution imaging of SICSL. Due to the impedance mismatching caused by solid immersion mechanism, the whispering gallery modes (WGMs) are excited between SICSL and the air interface. We clarify the excitation conditions of WGMs and analyze their influence on the imaging quality of SICSL. The SISSL and SICSL may pave a way to apply in lithography technique and real-time biomolecular imaging in future. [ABSTRACT FROM AUTHOR]

Published
2023
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16. Multiple One-Way Edge States From Reciprocal Continuous Media

Author

Xu, Jinying, Liu, Yineng, Chan, K. S., Li, Jensen Tsan Hang, Xu, Jinying, Liu, Yineng, Chan, K. S., and Li, Jensen Tsan Hang

Abstract

Topological one-way edge states promise robust information transport through the notion of photonic crystals. For further applications of edge-state circuits and devices, a high gap Chern number, C-g, is required. Contrary to previous realizations using gyrotropic photonic crystals, we show how vertical bar C-g vertical bar > 1 can be obtained by gapping multiple Dirac cones, which can surprisingly occur in a reciprocal continuous medium with limited degrees of freedom. A maximum of four one-way edge states is allowed on a single interface between two reciprocal continuous media. One-way signal combiners and splitters are designed with exact control on the branching and transmission efficiencies as immediate applications. Our theoretical investigations will be useful for constructing edge-state devices with multiplexing and demultiplexing capability.

Published
2019

18. Metasurface Approach to External Cloak and Designer Cavities

Author

Liu, Yineng, Xu, Jinying, Xiao, Shiyi, Chen, Xianzhong, Li, Jensen Tsan Hang, Liu, Yineng, Xu, Jinying, Xiao, Shiyi, Chen, Xianzhong, and Li, Jensen Tsan Hang

Abstract

A metasurface, with only a single layer of artificial atoms for ease of fabrication, can become a practical surface-equivalent route to transformation optical (TO) applications. The previous design paradigm for a metasurface carpet cloak is based on straightforward phase compensation, hampering more general wave manipulations. Here, we propose a theoretical approach in designing a metasurface using the concept of complementary media as an intermediate step. The metasurface, effectively storing all the original information in TO media, enables specific TO applications that normally require complementary media. A passive external metasurface cloak is numerically demonstrated here, which can hide an object on top of a reflective metasurface, mimicking a flat mirror. Furthermore, our scheme enables metasurfaces to be used to construct arbitrary standing waves on-demand, which will be useful for constructing tailor-made cavity modes, optical trapping, and illusion-type TO applications, which can project holograms in addition to scattering cancellation.

Published
2018

23. Experimental Observation of Giant Chiroptical Amplification of Small Chiral Molecules by Gold Nanosphere Clusters

Author

Wang, Rong-Yao, primary, Wang, Peng, additional, Liu, Yineng, additional, Zhao, Wenjing, additional, Zhai, Dawei, additional, Hong, Xuhai, additional, Ji, Yinglu, additional, Wu, Xiaochun, additional, Wang, Feng, additional, Zhang, Duan, additional, Zhang, Wensheng, additional, Liu, Ruibin, additional, and Zhang, Xiangdong, additional

Published
2014
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