Tong Cui scite author profile

For nearly two decades, the field of plasmonics1 - which studies the coupling of electromagnetic waves to the motion of free electrons in a metal2 - has sought to realize subwavelength optical devices for information technology3–6, sensing7,8, nonlinear optics9,10, optical nanotweezers11 and biomedical applications12. Although the heat generated by ohmic losses is desired for some applications (e.g. photo-thermal therapy), plasmonic devices for sensing and information technology have largely suffered from these losses inherent to metals13. This has led to a widespread stereotype that plasmonics is simply too lossy to be practical. Here, we demonstrate that these losses can be bypassed by employing “resonant switching”. In the proposed approach, light is only coupled to the lossy surface plasmon polaritons in the device’s off-state (in resonance) where attenuation is desired to ensure large extinction ratios and facilitate sub-ps switching. In the on state (out of resonance), light is prevented from coupling to the lossy plasmonic section by destructive interference. To validate the approach, we fabricated a plasmonic electro-optic ring modulator. The experiments confirm that low on-chip optical losses (2.5 dB), high-speed operation (>>100 GHz), good energy efficiency (12 fJ/bit), low thermal drift (4‰ K-1), and a compact footprint (sub-λ radius of 1 μm) can be realized within a single device. Our result illustrates the potential of plasmonics to render fast and compact on-chip sensing and communications technologies.

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Tunable Metasurfaces Based on Active Materials

Cui

Bai

Sun

2019

Adv Funct Materials

188

109

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Metasurfaces, planer artificial materials composed of subwavelength unit cells, have shown superior abilities to manipulate the wavefronts of electromagnetic waves. In the last few years, metasurfaces have been a burgeoning field of research, with a large variety of functional devices, including planar lenses, beam deflectors, polarization converters, and metaholograms, being demonstrated. Up to date, the majority of metasurfaces cannot be tuned postfabrication. Yet, the dynamic control of optical properties of metasurfaces is highly desirable for a plethora of applications including free space optical communications, holographic displays, and depth sensing. Recently, much effort has been made to exploit active materials, whose optical properties can be controlled under external stimuli, for the dynamic control of metasurfaces. The tunability enabled by active materials can be attributed to various mechanisms, including but not limited to thermo‐optic effects, free‐carrier effects, and phase transitions. This short review summarizes the recent progress on tunable metasurfaces based on various approaches and analyzes their respective advantages and challenges to be confronted with. A number of potential future directions are also discussed at the end.

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Development of a new IHA method for impact assessment of climate change on flow regime

Yang¹,

Cui²,

Xu³

et al. 2017

Global and Planetary Change

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Assessment of the impact of climate change on flow regime at multiple temporal scales and potential ecological implications in an alpine river

Cui

Yang

et al. 2017

Stoch Environ Res Risk Assess

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Depth and Image Restoration from Light Field in a Scattering Medium

Tian

Murez

Cui

et al. 2017

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Traditional imaging methods and computer vision algorithms are often ineffective when images are acquired in scattering media, such as underwater, fog, and biological tissue. Here, we explore the use of light field imaging and algorithms for image restoration and depth estimation that address the image degradation from the medium. Towards this end, we make the following three contributions. First, we present a new single image restoration algorithm which removes backscatter and attenuation from images better than existing methods do, and apply it to each view in the light field. Second, we combine a novel transmission based depth cue with existing correspondence and defocus cues to improve light field depth estimation. In densely scattering media, our transmission depth cue is critical for depth estimation since the images have low signal to noise ratios which significantly degrades the performance of the correspondence and defocus cues. Finally, we propose shearing and refocusing multiple views of the light field to recover a single image of higher quality than what is possible from a single view. We demonstrate the benefits of our method through extensive experimental results in a water tank.

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An improved approach for water quality evaluation: TOPSIS-based informative weighting and ranking (TIWR) approach

Yang

Huang

et al. 2018

Ecological Indicators

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Energy performance investigation of an innovative environmental control system in subway station

Zhang

Cui

Liu

et al. 2017

Building and Environment

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Determination of the asymmetric parameter in complementary relations of evaporation in alpine grasslands of the Tibetan Plateau

Wang

Han

Cui

et al. 2022

Journal of Hydrology

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Tong Cui

Low-loss plasmon-assisted electro-optic modulator

Tunable Metasurfaces Based on Active Materials

Development of a new IHA method for impact assessment of climate change on flow regime

Assessment of the impact of climate change on flow regime at multiple temporal scales and potential ecological implications in an alpine river

Depth and Image Restoration from Light Field in a Scattering Medium

An improved approach for water quality evaluation: TOPSIS-based informative weighting and ranking (TIWR) approach

Energy performance investigation of an innovative environmental control system in subway station

Determination of the asymmetric parameter in complementary relations of evaporation in alpine grasslands of the Tibetan Plateau

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