M
Mingwei Chen
Researcher at Johns Hopkins University
Publications - 1108
Citations - 63568
Mingwei Chen is an academic researcher from Johns Hopkins University. The author has contributed to research in topics: Medicine & Chemistry. The author has an hindex of 108, co-authored 536 publications receiving 51351 citations. Previous affiliations of Mingwei Chen include National Taiwan University & Chiba University.
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Convolution Error Reduction for a Fabry–Pérot-Based Linewidth Measurement: A Theoretical and Experimental Study
TL;DR: In this article , the authors proposed a convolutional fitting method to reduce the errors of the Fabry-Pérot (FP) etalon-based linewidth measurement.
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The effect of solute release position on transient solute dispersion in floating wetlands: An analytical study
TL;DR: In this paper , the effects of release position on the solute transport in floating wetlands were investigated on the basis of the analytical expressions derived from concentration moments, the temporal evolutions of dispersion intensity, the cloud distortion, and the displacement of the cloud centroid at the preasymptotic stage.
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Transient Analysis of Cryogenic Cooling Performance for High-Power Semiconductor Lasers Using Flash-Evaporation Spray
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Modulation of the Atmospheric Heat Source Over the Tibetan Plateau on the Intra-seasonal Oscillation of Summer Precipitation in the Yangtze-Huaihe River Basin
TL;DR: Based on the daily precipitation from China Meteorological Administration and the daily atmospheric circulation data from the Japanese 55-year Reanalysis (JRA-55) from 1979 to 2018, the authors analyzed the evolution of 10-30-day intra-seasonal oscillation (ISO) of the precipitation in the Yangtze-Huaihe River Basin (YHRB) and the modulation of the atmospheric heat source over the Tibetan Plateau (TP) with different intensity on the peak and trough values of precipitation in YHRB.
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Molecular dynamics study of shock-induced deformation phenomena and spallation failure in Ni-based single crystal superalloys
TL;DR: In this article , the spallation failure of Ni-based single crystal superalloys was studied via non-equilibrium molecular dynamic simulations, and it was shown that the existence of voids significantly lowers the spalation strength, and the amplitude reduction of the strength is directly proportional to the radius of the voids.