Qingbin Jiao
Chinese Academy of Sciences
31 Papers
12 Citations
Qingbin Jiao is an academic researcher from Chinese Academy of Sciences. The author has contributed to research in topics: Grating & Computer science. The author has an hindex of 4, co-authored 15 publications.
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Papers
Numerical simulation of ultrasonic enhancement by acoustic streaming and thermal effect on mass transfer through a new computation model
TL;DR: In this paper, a new computational model including both acoustic streaming and ultrasonic thermal effect is established to quantitatively calculate the ultrasonic enhancement on mass transfer coefficient in liquid-solid reaction.
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Numerical simulation of ultrasonic enhancement on mass transfer in liquid-solid reaction by a new computational model.
TL;DR: A new computational model quantitatively solving ultrasonic enhancement on mass transfer coefficient in liquid-solid reaction is established, and themass transfer coefficient on silicon surface with a transducer at frequencies of 40 kHz, 60 kHz, 80 kHz and 100 kHz has been numerically simulated.
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Research and Application of Several Key Techniques in Hyperspectral Image Preprocessing
TL;DR: In this paper, the authors focused on image segmentation, image correction and spatial-spectral dimensional denoising of images in hyperspectral image preprocessing to improve the classification accuracy.
Convex blazed grating of high diffraction efficiency fabricated by swing ion-beam etching method.
TL;DR: Experimental results validate that high-efficiency convex gratings of small blaze angle and high groove consistency can be produced by swing etching, which satisfy the requirements for high spectral resolution and miniaturization of imaging spectrometers.
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Dual high-Q Fano resonances metasurfaces excited by asymmetric dielectric rods for refractive index sensing
Tianyu Wang,Siqi Liu,Jiahang Zhang,Liang Xu,Mingyu Yang,Ding Ma,Sijia Jiang,Qingbin Jiao,Xin Tan +8 more
TL;DR: High-Q Fano resonances metasurfaces excited by asymmetric dielectric rods for refractive index sensing enables dual-channel detection with high sensitivity and high Q-factor.
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