D
Din Ping Tsai
Researcher at Hong Kong Polytechnic University
Publications - 572
Citations - 22884
Din Ping Tsai is an academic researcher from Hong Kong Polytechnic University. The author has contributed to research in topics: Metamaterial & Plasmon. The author has an hindex of 65, co-authored 532 publications receiving 18101 citations. Previous affiliations of Din Ping Tsai include University of Toronto & Industrial Technology Research Institute.
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Self-affine graphene metasurfaces for tunable broadband absorption
TL;DR: In this paper, a broadband graphene metasurface based on the Hilbert curve, a continuous, space-filling fractal fractal, is proposed to enhance graphene absorption over a broad frequency band (05-60 THz) with an average absorption level exceeding 20%.
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Plasmon coupling in vertical split-ring resonator metamolecules
Pin Chieh Wu,Wei-Lun Hsu,Wei Ting Chen,Yao-Wei Huang,Chun Yen Liao,Ai Qun Liu,Nikolay I. Zheludev,Greg Sun,Din Ping Tsai,Din Ping Tsai +9 more
TL;DR: In this article, the vertical split-ring resonators (VSRRs) are used to generate artificial magnetism at optical frequencies using plasmonic metamaterials, but owing to the planar configurations of typically fabricated metamolecules, the magnetic response is mainly driven by the electric field of the incident electromagnetic wave.
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Subwavelength interference of light on structured surfaces
TL;DR: In this article, a review of the subwavelength interference effects of light in structured surfaces is presented, starting from the anomalous interference in simple structures such as double nanoslits, thin films, and catenary apertures.
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Surface plasmon resonance monitoring of temperature via phase measurement
Hai-Pang Chiang,Hai-Pang Chiang,H.-T. Yeh,Che-Chin Chen,J.-C. Wu,S.-Y. Su,Railing Chang,Y.-J. Wu,Din Ping Tsai,S.U. Jen,S.U. Jen,P.T. Leung,P.T. Leung +12 more
TL;DR: In this article, the phase difference between a s and a p-polarized wave at different wavelengths, 632.8 nm and 1.15 μm, was used to measure the temperature of a metal film and its environment.
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A Versatile Route to the Controlled Synthesis of Gold Nanostructures
TL;DR: In this paper, a versatile route for the synthesis of multishaped gold nanoparticles (such as spherical nanoparticles, bipyramids, nanorods, nanowires, T-and star-shaped nanoparticles) that can be controlled by varying the conditions was demonstrated.