qncai-fudan's Stars
jrjohansson/scientific-python-lectures
Lectures on scientific computing with python, as IPython notebooks.
qutip/qutip
QuTiP: Quantum Toolbox in Python
qutip/qutip-notebooks
A collection of IPython notebooks using QuTiP: examples, tutorials, development test, etc.
EverettYou/Mathematica-for-physics
Mathematica Packages for Physicists
NanoComp/mpb
MIT Photonic-Bands: computation of photonic band structures in periodic media
zhaonat/Rigorous-Coupled-Wave-Analysis
modules for semi-analytic fourier series solutions for Maxwell's equations. Includes transfer-matrix-method, plane-wave-expansion-method, and rigorous coupled wave analysis (RCWA).
mitmath/18369
18.369/8.315 - Mathematical Methods in Nanophotonics course
xiumingzhang/photonic-bandgap-comsol-matlab
Computing the Bandgap of a 2D Photonic Crystal by COMSOL-MATLAB Scripting
qutip/qutip-doc
QuTiP documentation
yiy-mit/nanoEM
COMSOL implementation of the mesoscopic boundary conditions for nanoscale electromagnetism
SerbanL/Boris2
Boris Computational Spintronics
Light-in-complex-nanostructures/RETOP
RETOP is an free Matlab toobox that implements a near-to-far-field transformation for computing the radiation diagram. This transformation is implemented in many electromagnetic software, however for most of them, like COMSOL multiphysics, the transformation is restricted to object surrounded by uniform media (free space). RETOP operates for objects on substrates or buried in stratified media. It can be used to compute the radiation diagram in the superstrate and the substrate . The substrate may support guided modes or surface plasmon modes with metal layers. RETOP additionally computes the in-plane radiation diagram in the guided modes. It just needs the near-field (computed on a rectangular box that contains the object with any full-wave Maxwell’s solver) to compute the radiation diagrams. It is especially relevant for calculating the scattering of nanoparticle on substrates. Special attention is made to the interface with COMSOL Multiphysics.
irisdorn/automatedcomsol
Various .m files of code in MATLAB® for automating COMSOL Multiphysics®
bbanerjee/MetamaterialSim
Simulations of metamaterials with Comsol and Ansys
yongjinjiang/Hofstadter-Butterfly-TBG
landau_levels_of TBG
Light-in-complex-nanostructures/MAN
MAN (Modal Analysis of Nanoresonators) is a matlab based software made for analyzing electromagnetic micro and nanoresonators.
issahi62/PWEM-TMM_fields
FMM+RCWA-rigourous coupled wave analysis for different structures
Rafal-Swietek/Abrikosov-lattice
COMSOL simulation for the generation of vortex structures forming an Abrikosov lattice for different geometries
tylerparsons/ising
MATLAB library for simulating the Ising Model.
knifelees3/DipoleEmissionInSymmetricStructure
To calculate the emission properties when the dipole is put near symmetric structure.
otbrown/mpostat-matlab
MATLAB code to find the stationary state of a dissipative open quantum system, using matrix product operators.
Carmenlazy-ustc/Time-varying-metasurface
yxli8023/SpaceGroupIrep
A mathematica package for irreducible representations of space group
ianwilliamson/cnow
Coupled Nonlinear Optical Waves (CNOW)
ianwilliamson/mphdrivendispersion
matteosecli/Problems-in-Condensed-Matter
Repository for the course in "Basic and advanced problems in condensed matter theory"@SISSA, academic year 2016/2017.