P
Paul C.-P. Chao
Researcher at National Chiao Tung University
Publications - 207
Citations - 2025
Paul C.-P. Chao is an academic researcher from National Chiao Tung University. The author has contributed to research in topics: Lens (optics) & Control theory. The author has an hindex of 24, co-authored 189 publications receiving 1743 citations. Previous affiliations of Paul C.-P. Chao include Chung Yuan Christian University & Taipei Veterans General Hospital.
Papers
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Journal ArticleDOI
Imaging brain hemodynamic changes during rat forepaw electrical stimulation using functional photoacoustic microscopy
Lun-De Liao,Meng-Lin Li,Hsin Yi Lai,Yen-Yu Ian Shih,Yu Chun Lo,Siny Tsang,Paul C.-P. Chao,Chin-Teng Lin,Fu-Shan Jaw,You Yin Chen +9 more
TL;DR: The capacity of the fPAM system to image and quantify significant contralateral changes in both SO(2) and CBV driven by electrical forepaw stimulation is demonstrated, with the potential for explicitly studying brain hemodynamics in animal models.
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A novel method to predict the pull-in voltage in a closed form for micro-plates actuated by a distributed electrostatic force
TL;DR: In this paper, the exact pull-in voltage/position of a micro-device formed by two parallel charged plates was derived by using the Galerkin method to decompose the established PDE into discrete modal equations.
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Optimal Design of Magnetically Actuated Optical Image Stabilizer Mechanism for Cameras in Mobile Phones via Genetic Algorithm
TL;DR: An optimal electromagnetic actuator for the application of optical image stabilization in cameras of mobile phones by conducting an optimal design with the coupled relationship between magnetic field and mechanical geometry.
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A new low-voltage-driven GRIN liquid crystal lens with multiple ring electrodes in unequal widths.
TL;DR: This work is dedicated to design a novel liquid crystal (LC) lens device with multiple ring electrodes in unequal widths, in order to offer tunability on focusing quality and to lower the level of applied voltage.
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DC dynamic pull-in predictions for a generalized clamped–clamped micro-beam based on a continuous model and bifurcation analysis
TL;DR: In this paper, the authors provided precise predictions of the dc dynamic pull-in voltages of a clamped?clamped micro-beam based on a continuous model and the method of Galerkin decomposition was employed to convert the established system equations into reduced discrete modal equations.