Explains the principles of Bragg gratings in optics and the occurrence of reflectance peaks.
Explains how to calculate the air refraction index using interference fringes.
Explores interference patterns in mirrors, calculating distances and conditions for observing bright fringes on a screen.
Explores interference in optics, including phases, interferometers, diffraction, and coherence properties of light sources.
Explores the practical aspects of the Fabry-Perot interferometer, including resolution, reflectivity, and alignment using dielectric mirrors.
Explores the benefits of sheathing optical fibers and fundamental wave propagation principles.
Explores optical wave behavior, including reflection, refraction, transmission, and intensity effects at interfaces.
Introduces the basic principles of ray optics, covering topics such as microscopy aspects, image formation, and laws of reflection and refraction.
Explores the matrix approach to optical interference in multi-layer systems and the practical applications of dielectric mirrors.
Explores radiometry, photometry, laser power distribution, and light behavior in different media.