Calculating Two-Dimensional Phononic Crystal Bandgaps Using Plane Wave Expansion Method
Implementation of bandgap calculation for 2D phononic crystals using plane wave expansion method with detailed code annotations for learning purposes
FDTD Calculation of 2D Photonic Crystal Bandgap
This FDTD-based program calculates bandgaps in 2D photonic crystals, featuring comprehensive electromagnetic field simulations through extended code implementation while maintaining practical usability
Computable Two-Dimensional Photonic Crystal Band Gap Calculation
This program calculates the band gap of two-dimensional photonic crystals and generates the band gap diagram along with the precise positions and widths of the band gaps using electromagnetic eigenmode analysis and frequency-domain computation methods.
Computing Band Gaps of Two-Dimensional Photonic Crystals and Generating Band Gap Diagrams
Utilizing MATLAB for calculating band gaps in 2D photonic crystals and creating corresponding diagrams, along with computing energy gaps for two-dimensional phononic crystals (XY mode) and generating graphical representations with algorithm explanations.
Calculating Photonic Crystal Waveguide Bandgaps Using COMSOL and MATLAB
Utilizing COMSOL software and MATLAB for photonic crystal waveguide bandgap computation, these tools offer excellent capabilities for photonic crystal analysis with parameter exploration and physical property investigations.
MATLAB Source Code for Calculating 2D Photonic Crystal Bandgap Using FDTD Method
MATLAB implementation of Finite-Difference Time-Domain (FDTD) method for computing bandgap properties of two-dimensional photonic crystals with detailed code structure and algorithm explanation
Calculation of One-Dimensional Photonic Crystal Bandgaps
This MATLAB simulation program implements both numerical and analytical methods to compute bandgap structures in 1D photonic crystals, featuring transfer matrix method implementation and dispersion relation analysis.