M
Min Qiu
Researcher at Westlake University
Publications - 448
Citations - 16758
Min Qiu is an academic researcher from Westlake University. The author has contributed to research in topics: Photonic crystal & Resonator. The author has an hindex of 61, co-authored 426 publications receiving 13997 citations. Previous affiliations of Min Qiu include Zhejiang University & Royal Institute of Technology.
Papers
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High performance optical absorber based on a plasmonic metamaterial
TL;DR: In this article, an ultrathin, wide-angle, subwavelength high performance metamaterial absorber for optical frequencies is presented. But the experimental results show that an absorption peak of 88% is achieved at the wavelength of ∼1.58μm, though theoretical results give near perfect absorption.
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Nearly total absorption of light and heat generation by plasmonic metamaterials
TL;DR: In this article, the authors theoretically and numerically study the absorption effect and the heat generation in plasmonic metamaterials under light radiation at their plasmoric resonance.
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Ideal Cylindrical Cloak: Perfect but Sensitive to Tiny Perturbations
TL;DR: It is confirmed that a cloak with the ideal material parameters is a perfect invisibility cloak by systematically studying the change of the scattering coefficients from the near-ideal case to the ideal one.
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Enhanced transmission through periodic arrays of subwavelength holes : The role of localized waveguide resonances
Zhichao Ruan,Min Qiu +1 more
TL;DR: The rigid full-vectorial three-dimensional finite-difference time-domain method shows that the enhanced transmission through a metallic film with a periodic array of subwavelength holes results from two different resonances: localized waveguide resonances and well-recognized surface plasmon resonances due to the periodicity.
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Negative refraction at infrared wavelengths in a two-dimensional photonic crystal.
TL;DR: Experiments show the first experimental evidence of negative refraction at telecommunication wavelengths by a two-dimensional photonic crystal field by chemically assisted ion beam etching in the InP-based low-index constrast system.