Simulating Dispersion in Photonic Crystal Fibers Using FDFD
A program for simulating dispersion in photonic crystal fibers using FDFD, with FDFD.m as the main program and dispersion.m handling dispersion calculations
Plotting Dispersion Curves for Photonic Crystal Fibers
This program is designed for plotting dispersion curves of photonic crystal fibers.
Computational Analysis of Dispersion in Photonic Crystal Fibers
This MATLAB program accurately calculates dispersion properties in photonic crystal fibers, featuring realistic simulations and robust numerical implementations.
Algorithmic Program for Simulating Photonic Crystal Fibers Using Finite-Difference Time-Domain Method
Algorithmic implementation utilizing Finite-Difference Time-Domain (FDTD) method for photonic crystal fiber simulation, featuring electromagnetic field update routines and boundary condition handling
Generation and Transmission Characteristics of Supercontinuum in Photonic Crystal Fibers
Calculation and analysis of supercontinuum generation and transmission characteristics in photonic crystal fibers using the Split-Step Fourier Method, with implementation details of numerical modeling and spectral evolution algorithms.
Modal Field Distribution in Photonic Crystal Fibers is Quasi-Two-Dimensional
The distribution of modal fields in photonic crystal fibers, implemented using MATLAB with finite difference or eigenmode analysis algorithms, exhibits a quasi-two-dimensional pattern across the X and Y axes through electromagnetic simulation and vector field computation.
Scalable Program for Visualizing Photonic Crystal Fiber Air Hole Shapes
A scalable program designed for plotting and customizing photonic crystal fiber air hole configurations with material and geometric flexibility.
FDTD Simulation of Dispersion in Photonic Crystal Fibers
FDTD simulation of dispersion characteristics in photonic crystal fibers with enhanced computational algorithms
Simulating Photonic Crystal Fiber Dispersion Using FDFD Method
Numerical Simulation of Photonic Crystal Fiber Dispersion Characteristics via Frequency Domain Finite Difference (FDFD) Method