Electronic, Optical and Magnetic Properties of Materials (edX)

Electronic, Optical and Magnetic Properties of Materials (edX)
Course Auditing
Categories
Effort
Certification
Languages
Differential and Integral Calculus. University-level Electricity & Magnetism. Fundamentals of Materials Science and Engineering, or a knowledge structure and bonding in solid state materials.
Misc

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Electronic, Optical and Magnetic Properties of Materials (edX)
Discover the physical principles behind diodes, light-emitting devices, and memories. This course from MIT’s Department of Materials Science and Engineering introduces the fundamental principles of quantum mechanics, solid state physics, and electricity and magnetism.

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We use these principles to describe the origins of the electronic, optical, and magnetic properties of materials, and we discuss how these properties can be engineered to suit particular applications, including diodes, optical fibers, LEDs, and solar cells.




In this course, you will find out how the speed of sound is connected to the electronic band gap, what the difference is between a metal and a semiconductor, and how many magnetic domains fit in a nanoparticle. You will explore a wide range of topics in the domains of materials engineering, quantum mechanics, solid state physics that are essential for any engineer or scientist who wants to gain a fuller understanding of the principles underlying modern electronics.

This course is part of the xMinor in Materials for Electronic, Optical, and Magnetic Devices XSeries Program.


What you'll learn

- Discover the quantum mechanical origins of materials properties

- Explain the origin of electronic bands in semiconductors

- Learn the operating principles of solid state devices such as solar cells and LEDs

- Understand the materials physics that underlies the optical and magnetic behavior of materials


Course Syllabus


Part 1: Lattice Vibrations

- Hamiltonian Mechanics

- Vibrations in Crystals–Phonons

- Elastic Bandgap


Part 2: Quantum Mechanics

- Schrödinger’s Equation

- 1-Dimensional Problems

- Measurements—The Ehrenfest Theorem

- Three Dimensions—Hydrogen Atom


Part 3: Electronic Band Structures

- Periodic Potential

- Central Equation

- Understanding Band Diagrams

- Engineering conductivity in Semiconductors


Part 4: Solid-State Devices

- PN Junctions

- Solar Cells

- LEDs


Part 5: Optical Properties

- Wave Equation

- E/M Waves at Interfaces

- Photonic Crystals


Part 6: Introduction to Magnetism

- Classification of Magnets

- Hysteresis in Ferromagnetic Materials

- Magnetic Domains



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Course Auditing
123.00 EUR
Differential and Integral Calculus. University-level Electricity & Magnetism. Fundamentals of Materials Science and Engineering, or a knowledge structure and bonding in solid state materials.

MOOC List is learner-supported. When you buy through links on our site, we may earn an affiliate commission.