Simulation of Common Engineering Optical Phenomena

MATLAB 11K 237 views 1 downloads 1 credits
Tags:

Resource Overview

Simulation of typical engineering optical phenomena, including plane wave and spherical wave modeling, with implementation examples for various interference and diffraction effects.

Detailed Documentation

In the field of engineering optics, simulating optical phenomena is critically important. Beyond fundamental wave simulations like plane waves and spherical waves (typically implemented using wave propagation algorithms), various interference phenomena can be modeled. These include double-slit interference (simulated through wave superposition calculations), Fresnel diffraction (implemented using angular spectrum or convolution methods), and Doppler effects (modeled with frequency shift algorithms). Additionally, one can explore diverse light properties such as polarization (handled via Jones matrices), absorption (implemented with attenuation coefficients), and scattering (modeled using Mie or Rayleigh scattering algorithms). Through continuous in-depth study of these phenomena and properties, we can better understand and apply optical theories, thereby advancing the development of engineering optics.

You May Also Like