Pinned Repositories
Blog
**科学技术大学计算机学院课程资源(https://mbinary.xyz/ustc-cs/)
ceviche
:shrimp: Electromagnetic Simulation + Automatic Differentiation
code
lantz and spyre code for zhong lab
Critical-points-toroidal
Jupyter Notebooks to calculate FEM approximations of elliptic problems in toroidal regions
Deep-Learning-for-Metasurface-Optimization
Deep Learning (non-linear regression) for metasurface parameter optimization using tensorflow/keras
fdfdpy
Pure Python implementation of the finite difference frequency domain (FDFD) method for electromagnetics
FID_Simulation
The repository contains scripts to generate simulations of pNMR FID signals.
GeometryPrimitives.jl
geometric primitives for piecewise functions on grids
python-meep-utils
Simulations of electromagnetic waves - easier scripting, postprocessing and field export
Time-varying-metasurface
Carmenlazy-ustc's Repositories
Carmenlazy-ustc/Time-varying-metasurface
Carmenlazy-ustc/python-meep-utils
Simulations of electromagnetic waves - easier scripting, postprocessing and field export
Carmenlazy-ustc/Blog
**科学技术大学计算机学院课程资源(https://mbinary.xyz/ustc-cs/)
Carmenlazy-ustc/ceviche
:shrimp: Electromagnetic Simulation + Automatic Differentiation
Carmenlazy-ustc/code
lantz and spyre code for zhong lab
Carmenlazy-ustc/Critical-points-toroidal
Jupyter Notebooks to calculate FEM approximations of elliptic problems in toroidal regions
Carmenlazy-ustc/Deep-Learning-for-Metasurface-Optimization
Deep Learning (non-linear regression) for metasurface parameter optimization using tensorflow/keras
Carmenlazy-ustc/fdfdpy
Pure Python implementation of the finite difference frequency domain (FDFD) method for electromagnetics
Carmenlazy-ustc/FID_Simulation
The repository contains scripts to generate simulations of pNMR FID signals.
Carmenlazy-ustc/GeometryPrimitives.jl
geometric primitives for piecewise functions on grids
Carmenlazy-ustc/lightpipes
LightPipes for Python
Carmenlazy-ustc/liu
Carmenlazy-ustc/MAN
MAN (Modal Analysis of Nanoresonators) is a matlab based software made for analyzing electromagnetic micro and nanoresonators.
Carmenlazy-ustc/MetaLab
Learn and design nanophotonic structures, surface plasmon devices... Using powerful machine learning algorithms(CNN, GBRT, differentiable forest...)
Carmenlazy-ustc/metasurface
learn how to act the simulation
Carmenlazy-ustc/modesolverpy
Photonic mode solver with a simple interface.
Carmenlazy-ustc/Multipole-Decomposition
Multipole Decomposition with Toroidal Moment (Evlykhin A.B Theory)
Carmenlazy-ustc/Multipole-Decomposition-for-Scattering
Carmenlazy-ustc/nanoEM
COMSOL implementation of the mesoscopic boundary conditions for nanoscale electromagnetism
Carmenlazy-ustc/nanoptics
In-depth analysis of NANomaterials for OPTICal localized surface plasmon resonance Sensing
Carmenlazy-ustc/OnTheApplicationOfDeepLearningInModelingMetasurface
Carmenlazy-ustc/OpenModes
An eigenmode solver for open electromagnetic resonantors
Carmenlazy-ustc/opticspy
python optics module
Carmenlazy-ustc/PHYS371_CMB_Final_Project
Carmenlazy-ustc/scattnlay
Near- and far-field Mie scattering by a multilayered sphere