Python-based electromagnetic simulator and mode solver for nanophotonics applications, using the Eigenmode Expansion (EME) method.

<NEEDS MAJOR UPDATE> Simulations of electromagnetic waves - easier scripting, postprocessing and field export

Computing the Bandgap of a 2D Photonic Crystal by COMSOL-MATLAB Scripting

Band diagram and Field of 2D photonic cristal

Photonic crystals in Julia 🦚

Tools for the design and characterisation of thin-films written in Julia.

Modeling and designing Photonic Crystal Nanocavities via Deep Learning

Topological Invariant Calculation for Photonic Crystals Including Chern Number and Wilson Loop

Plot photonic dispersion curves with mode shapes (a frontend to MIT Photonic bands)

Plane Wave Expansion method for photonic crystals. Mirror of https://gitlab.com/protis/protis

RCWA Solver

Simulation framework for the calculation of the dispersion properties of photonic crystals for enhanced atom-atom interactions mediated by photons.

3D Plane Wave Expansion

The GME (guided mode expansion) method was formulated to efficiently solve the band structure and radiation losses of photonic crystal slabs. Here you will find the c++ implementation of this beautiful technique.

Aquí se encuentra un conjunto de códigos que se usaron para la escritura de mi tesis de licenciatura con el fin del estudio y análisis de cristales fotónicos con recubrimiento de grafeno en distintas configuraciones

Teoría y cálculos de propiedades ópticas de metamateriales. Los cálculos se implementaron usando lenguaje PDL, cuya descripción es dada en el texto principal. Notas de la escuela de verano, ICF, UNAM

Analytical and Numerical Methods in Optics and Photonics (Аналитические и численные методы в оптике и фотонике)

Model of the propagation of bandgaps in one dimensional photonic crystals.

Photonics FDTD simulation with MatLab