Pinned Repositories
Dyadic-Green-Function-MIMO
Channel Modeling and Performance Estimation of Near-Field MIMO Based on Free-Space Dyadic Green's Function
Modified-Diode-Model
The Modified Diode Model for Perovskite Solar Cells
OAM-Propagation
Topological Charge and Fourier Optics Calculation of Vortex Beams Carrying Orbital Angular Momentum
T-Matrix-Method-Cylinder
Calculating Scattering of Multiple Multilayered 2-D Cylinders Using T-matrix Method
Topological-Invariant-Optics
Topological Invariant Calculation for Photonic Crystals Including Chern Number and Wilson Loop
VIE-Wireless-Communications
Volume Integral Equation Method for Modeling Wireless Communication Channel
VIE_FFT
A Volume Integral Equation-Fast Fourier Transform Method for Modeling Optical Response of Nanostructures
Sha Group's Repositories
Sha-Group/OAM-Propagation
Topological Charge and Fourier Optics Calculation of Vortex Beams Carrying Orbital Angular Momentum
Sha-Group/Topological-Invariant-Optics
Topological Invariant Calculation for Photonic Crystals Including Chern Number and Wilson Loop
Sha-Group/VIE_FFT
A Volume Integral Equation-Fast Fourier Transform Method for Modeling Optical Response of Nanostructures
Sha-Group/Modified-Diode-Model
The Modified Diode Model for Perovskite Solar Cells
Sha-Group/Dyadic-Green-Function-MIMO
Channel Modeling and Performance Estimation of Near-Field MIMO Based on Free-Space Dyadic Green's Function
Sha-Group/T-Matrix-Method-Cylinder
Calculating Scattering of Multiple Multilayered 2-D Cylinders Using T-matrix Method
Sha-Group/VIE-Wireless-Communications
Volume Integral Equation Method for Modeling Wireless Communication Channel