Interference Of Light: Concepts To Advanced Applications
Published 5/2025
Created by Dr. Endla Purushotham
MP4 | Video: h264, 1280x720 | Audio: AAC, 44.1 KHz, 2 Ch
Level: Beginner | Genre: eLearning | Language: English | Duration: 39 Lectures ( 11h 13m ) | Size: 2.2 GB
Learn the Fundamentals of Interference and How AI is Shaping Optical Physics"
What you'll learn
Eplain key concepts such as constructive and destructive interference, coherence, and path difference using classical physics frameworks.
Interpret and predict interference patterns from experiments like Young's Double-Slit, thin films, and Michelson interferometers.
Apply AI techniques to recognize, classify, and interpret interference patterns from experimental or simulated data.
Evaluate the effectiveness of different AI models in analyzing light interference data and optimizing optical experiments
Requirements
This course is beginner-friendly and does not require any prior knowledge of OPTICS.
Description
Welcome to "Interference of Light: Concepts to advanced" This course offers a deep dive into the fascinating world of light interference, taking you from foundational concepts to cutting-edge AI-driven applications in wave optics.Designed for students, researchers, and anyone curious about the intersection of classical physics and modern technology, this course will teach you everything you need to know about light interference, and show you how artificial intelligence is revolutionizing the study of light.Through a blend of theoretical insights, historical experiments, and practical AI tools, you will:Master the Basics of Wave Optics: Understand the core principles behind light interference, diffraction, and polarization.Explore Iconic Interference Experiments: Learn about groundbreaking experiments like Young's Double Slit, Newton's Rings, and Michelson-Morley, which laid the foundation of our understanding of light.Dive into the Mathematics of Interference: Gain a solid understanding of the math behind interference patterns and diffraction, and learn how to calculate and predict them.Discover AI Applications in Optics: Understand how artificial intelligence is being used to simulate light behavior, solve complex optical problems, and optimize interference patterns in real-time.Work with AI Simulation Tools: Gain hands-on experience using AI-driven software to visualize and analyze light interference phenomena, enhancing your understanding of wave optics.Learn Real-World Applications: See how interference is applied in technology, from fiber optics and telecommunications to lasers and quantum computing.This course provides the ideal mix of theoretical knowledge and practical skills, making it perfect for anyone looking to gain a deeper understanding of the science of light and how artificial intelligence is changing the future of optics.By the end of the course, you'll have a strong grasp of both classical and modern optics, and be able to use AI tools to simulate, analyze, and solve interference problems in optics.Who This Course Is For:Students and enthusiasts of physics who want to learn about light interference and wave optics.Anyone interested in the applications of artificial intelligence in science and engineering.Researchers or professionals in optics, telecommunications, and related fields looking to explore AI tools in optical analysis.Educators seeking a comprehensive resource to teach wave optics and AI-driven simulations.
Who this course is for
Students and Beginners in Physics or Engineering: Those looking to build a strong foundation in opticS.
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