Lectures related to Calculating Silicon Nitride Layer Thickness

Electromagnetic Waves and Optics

Covers the fundamentals of electromagnetic waves and optics, including interference phenomena, diffraction, refraction, and reflection of light.

Optical Fiber Sheath: Advantages and Principles

Explores the benefits of sheathing optical fibers and fundamental wave propagation principles.

Optical Waves: Reflection, Refraction, and Transmission

Explores optical wave behavior, including reflection, refraction, transmission, and intensity effects at interfaces.

Reflection and Refraction in Transparent Matter

Explores the laws of reflection and refraction in transparent matter, focusing on wave interaction with dielectric slabs.

Electromagnetic Waves in Materials: Reflection and Refraction

Explores electromagnetic waves in materials, focusing on reflection, refraction, and boundary conditions for transparent solids.

Optical Waves: Gaussian Beams

Explores optical wave propagation, total internal reflection, and Gaussian beams.

Electromagnetic Wave Propagation: Reflection, Refraction, Absorption

Explores electromagnetic wave propagation in matter, focusing on absorption, reflection, and refraction phenomena.

Solar Optics: Basics and Applications

Explores the history, basics, and applications of solar optics, including solar concentration and optical system design.

Ray Optics: EM Wave Optics

Explores radiometry, photometry, laser power distribution, and light behavior in different media.

Optical Interfaces: Reflection and Refraction

Explores reflection and refraction at optical interfaces, including Fresnel equations and practical applications.

Polarized Light: Reflection and Lenses

Explores circular polarized waves, reflection, lenses, and human vision optics.

Electromagnetic Waves: Reflection, Refraction, and Interference

Explores electromagnetic waves, wave optics, interference, and diffraction phenomena in experimental physics II.

Introduction to Optics: Light and Waves

Introduces fundamental optics concepts, covering refraction, reflection, interference, polarization, and more, exploring the behavior of light in different media.

Light-Material Interaction: Fundamentals

Covers the basics of light-material interaction, including reflection, refraction, absorption, luminescence, and diffusion.

Reflection of Light on Different Media

Covers the reflection of light on different media and how to determine the minimum thickness of an oil layer based on the observed wavelength.

Interaction of E-M Waves with Matter: Transmission, Absorption, Reflection

Explores how electromagnetic waves interact with matter, emphasizing transmission, absorption, and reflection.

Ray Optics

Introduces the basic principles of ray optics, covering topics such as microscopy aspects, image formation, and laws of reflection and refraction.

Versatile EM Wave Description

Summarizes EM chapters, emphasizing wave description, reflection laws, and light intensity calculations.

General Physics: Quantum - Refractive Indices and Optics

Explores refractive indices, laws of refraction, and optical instruments.

Snell's Law Application: Minimum Refractive Index

Explores the minimum refractive index for total internal reflection in a prism.