Wang Chan scite author profile

Wang Chan

4Publications

39Citation Statements Received

80Citation Statements Given

How they've been cited

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130

Affiliations

Xinxiang Medical University, Zhejiang University

Publications

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Multi-frequency metasurface carpet cloaks

Chan¹,

Yang²,

Liu³

et al. 2018

Opt. Express

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Metasurfaces provide an alternative way to design three-dimensional arbitrary-shaped carpet cloaks with ultrathin thicknesses. Nevertheless, the previous metasurface carpet cloaks work only at a single frequency. To overcome this challenge, we here propose a macroscopic metasurface carpet cloak. The cloak is designed with a metasurface of a few layers that exhibit a special spatial distribution of the conductance and inductance in the unit cell; therefore, it can fully control the reflection phases at several independent frequencies simultaneously. Because of this, the present metasurface cloak can work at dual frequencies based on multi-resonance principle. The proposed design methodology will be very useful in future broadband macroscopic cloaks design with low profiles, light weights, and easy access.

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Superscattering of Light in Refractive-Index Near-Zero Environments

Chan¹,

Qian²,

Hu³

et al. 2020

PIER

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Enhancing the scattering of light from subwavelength structures is of both fundamental and practical significance. While the scattering cross section from each channel cannot exceed the single-channel limit, it is recently reported that the total cross section can far exceed this limit if one overlaps the contribution from many channels. Such a phenomenon about enhancing the scattering from subwavelength structures in free space is denoted as the superscattering in some literature. However, the scatterer in practical scenarios is not always in free space but may be embedded in environments with non-unity refractive index n. The influence of environments on the superscattering remains elusive. Here the superscattering from subwavelength structures in the isotropic environment with near-zero index are theoretically investigated. Importantly, a smaller n can lead to a larger total cross section for superscattering. The underlying mechanism is that a smaller n can give rise to a larger singlechannel limit. Our work thus indicates that the scattering from subwavelength structures can be further enhanced if one simultaneously maximizes the single-channel limit and the contribution from many channels.

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A Face Detection Method Combining Improved AdaBoost Algorithm and Template Matching in Video Sequence

Yan¹,

Wang²,

Zhao³

et al. 2016

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An Intelligent Signal Detection Method Based on DNN for MBM System

Chen

Lei

Chan

et al. 2020

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Wang Chan

Multi-frequency metasurface carpet cloaks

Superscattering of Light in Refractive-Index Near-Zero Environments

A Face Detection Method Combining Improved AdaBoost Algorithm and Template Matching in Video Sequence

An Intelligent Signal Detection Method Based on DNN for MBM System

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