Song Mei
Song Mei
Verified email at wisc.edu
Title
Cited by
Cited by
Year
Full-dispersion Monte Carlo simulation of phonon transport in micron-sized graphene nanoribbons
S Mei, LN Maurer, Z Aksamija, I Knezevic
Journal of Applied Physics 116 (16), 164307, 2014
682014
Thermal conductivity of III-V semiconductor superlattices
S Mei, I Knezevic
Journal of Applied Physics 118 (17), 175101, 2015
442015
Rayleigh waves, surface disorder, and phonon localization in nanostructures
LN Maurer, S Mei, I Knezevic
Physical Review B 94 (4), 045312, 2016
222016
Quantum transport simulation of high-power 4.6-μm quantum cascade lasers
O Jonasson, S Mei, F Karimi, J Kirch, D Botez, L Mawst, I Knezevic
Photonics 3 (2), 38, 2016
182016
Boundaries, interfaces, point defects, and strain as impediments to thermal transport in nanostructures
S Mei, CJ Foss, LN Maurer, O Jonasson, Z Aksamija, I Knezevic
2017 IEEE International Reliability Physics Symposium (IRPS), 6A-1.1-6A-1.10, 2017
102017
Modeling quantum cascade lasers: Coupled electron and phonon transport far from equilibrium and across disparate spatial scales
YB Shi, S Mei, O Jonasson, I Knezevic
Fortschritte der Physik 65 (6-8), 1600084, 2017
92017
Thermal conductivity of ternary III-V semiconductor alloys: The role of mass difference and long-range order
S Mei, I Knezevic
Journal of Applied Physics 123 (12), 125103, 2018
62018
Deep learning based noise reduction method for automatic 3D segmentation of the anterior of lamina cribrosa in optical coherence tomography volumetric scans
Z Mao, A Miki, S Mei, Y Dong, K Maruyama, R Kawasaki, S Usui, ...
Biomedical optics express 10 (11), 5832-5851, 2019
52019
Measurements of the Thermal Resistivity of InAlAs, InGaAs, and InAlAs/InGaAs Superlattices
GR Jaffe, S Mei, C Boyle, JD Kirch, DE Savage, D Botez, LJ Mawst, ...
ACS applied materials & interfaces 11 (12), 11970-11975, 2019
52019
Discussion of:“Nonparametric regression using deep neural networks with ReLU activation function”
B Ghorbani, S Mei, T Misiakiewicz, A Montanari
The Annals of Statistics 48 (4), 1898-1901, 2020
32020
On a molecular based Q-tensor model for liquid crystals with density variations
S Mei, P Zhang
Multiscale Modeling & Simulation 13 (3), 977-1000, 2015
32015
Automated 3d lamina cribrosa segmentation in optical coherence tomography volumetric scans
Z Mao, A Miki, S Mei, Y Dong, K Maruyama, R Kawasaki, S Usui, ...
Investigative Ophthalmology & Visual Science 60 (9), 1485-1485, 2019
22019
Phonon Monte Carlo: Generating Random Variates for Thermal Transport Simulation
LN Maurer, S Mei, I Knezevic
Nanophononics, 109-137, 2017
22017
Quantum cascade lasers: electrothermal simulation
S Mei, YB Shi, O Jonasson, I Knezevic
arXiv preprint arXiv:1609.09130, 2016
22016
Deep-learning-based Projection Artifact Removal in Optical Coherence Tomography Angiography Volumes
S Mei, Z Mao, Z Wang, K Chan
Investigative Ophthalmology & Visual Science 61 (7), 4577-4577, 2020
12020
Three-dimensional morphometry of the lamina cribrosa for glaucoma diagnosis using deep learning-enhanced optical coherence tomography volumetric scans
A Miki, X Sui, K Maruyama, Z Mao, S Mei, Z Wang, S Usui, K Matsushita, ...
Investigative Ophthalmology & Visual Science 62 (8), 2510-2510, 2021
2021
Three-dimensional visualization of intrachoroidal cavitation using the deep learning-based enhancement of optical coherence tomography
S Fujimoto, A Miki, K Maruyama, S Mei, X Sui, Z Mao, Z Wang, K Chan, ...
Investigative Ophthalmology & Visual Science 62 (8), 1784-1784, 2021
2021
3d shadow reduction signal processing method for optical coherence tomography (oct) images
S Mei, Z Mao, Y Dong, Z Wang, K Chan
US Patent App. 16/574,453, 2021
2021
Method and apparatus for measuring tear film thickness using optical interference
J Kim, B Cao, S Mei, K Chan, Z Wang, Z Mao
US Patent App. 16/829,673, 2020
2020
Method and apparatus for low coherence interferometry
J Kim, Y Dong, S Mei, K Chan, Z Wang, Z Mao
US Patent App. 16/719,305, 2020
2020
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Articles 1–20