T
Tze An Liu
Researcher at Industrial Technology Research Institute
Publications - 19
Citations - 1402
Tze An Liu is an academic researcher from Industrial Technology Research Institute. The author has contributed to research in topics: Terahertz radiation & Terahertz spectroscopy and technology. The author has an hindex of 10, co-authored 19 publications receiving 1297 citations. Previous affiliations of Tze An Liu include National Chiao Tung University.
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Journal ArticleDOI
Improved broadband and quasi-omnidirectional anti-reflection properties with biomimetic silicon nanostructures
Yi Fan Huang,Yi Fan Huang,Surojit Chattopadhyay,Yi-Jun Jen,Cheng Yu Peng,Tze An Liu,Yu-Kuei Hsu,Ci-Ling Pan,Hung Chun Lo,Chih Hsun Hsu,Yuan Huei Chang,Chih Shan Lee,Kuei-Hsien Chen,Li-Chyong Chen +13 more
TL;DR: A simple aperiodic array of silicon nanotips on a 6-inch wafer with a sub-wavelength structure that can suppress the reflection of light at a range of wavelengths from the ultraviolet, through the visible part of the spectrum, to the terahertz region is reported.
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Modal characteristics of antiresonant reflecting pipe waveguides for terahertz waveguiding
TL;DR: Numerical results reveal that the guiding mechanism of the leaky core modes, which transmit most of the power in the air-core region, is that of the antiresonant reflecting guiding.
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Terahertz refractive index sensors using dielectric pipe waveguides
TL;DR: A dielectric pipe waveguide is successfully demonstrated as a terahertz refractive index sensor for powder and liquid-vapor sensing and is comparable to the best THz molecular sensor.
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Subwavelength film sensing based on terahertz anti-resonant reflecting hollow waveguides.
TL;DR: The dependence of thin-film detection sensitivity on the optical geometrical parameters of tubes, different thicknesses and tube wall refractive indices, and on different resonant frequencies is experimentally studied.
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Hybrid terahertz plasmonic waveguide for sensing applications.
TL;DR: The suitability of a terahertz plasmonic sensor for sensing applications is successfully demonstrated using a hybrid planar waveguide composed of a subwavelength plastic ribbon waveguide and a diffraction metal grating.