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Materials Science and Engineering (M-I-T)
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Electrical, Optical, and Magnetic Materials and Devices (Spring 2020) (M-I-T)
Electrical, Optical, and Magnetic Materials and Devices (Spring 2020) (M-I-T)
(39 Lectures Available)
S#
Lecture
Course
Institute
Instructor
Discipline
1
An Introduction to Carrier Action (M-I-T)
Electrical, Optical, and Magnetic Materials and Devices (Spring 2020) (M-I-T)
MIT
Prof. Caroline Ross
Applied Sciences
2
An Introduction to the pn Junction (M-I-T)
Electrical, Optical, and Magnetic Materials and Devices (Spring 2020) (M-I-T)
MIT
Prof. Caroline Ross
Applied Sciences
3
Band Diagram of a pn Junction (M-I-T)
Electrical, Optical, and Magnetic Materials and Devices (Spring 2020) (M-I-T)
MIT
Prof. Caroline Ross
Applied Sciences
4
Band Diagrams (M-I-T)
Electrical, Optical, and Magnetic Materials and Devices (Spring 2020) (M-I-T)
MIT
Prof. Caroline Ross
Applied Sciences
5
Carrier Concentrations in a Biased Junction (M-I-T)
Electrical, Optical, and Magnetic Materials and Devices (Spring 2020) (M-I-T)
MIT
Prof. Caroline Ross
Applied Sciences
6
Carrier Diffusion (M-I-T)
Electrical, Optical, and Magnetic Materials and Devices (Spring 2020) (M-I-T)
MIT
Prof. Caroline Ross
Applied Sciences
7
Carrier Distribution (M-I-T)
Electrical, Optical, and Magnetic Materials and Devices (Spring 2020) (M-I-T)
MIT
Prof. Caroline Ross
Applied Sciences
8
Carrier Properties (M-I-T)
Electrical, Optical, and Magnetic Materials and Devices (Spring 2020) (M-I-T)
MIT
Prof. Caroline Ross
Applied Sciences
9
Crystal Colors and Summary (M-I-T)
Electrical, Optical, and Magnetic Materials and Devices (Spring 2020) (M-I-T)
MIT
Prof. Caroline Ross
Applied Sciences
10
Drift (M-I-T)
Electrical, Optical, and Magnetic Materials and Devices (Spring 2020) (M-I-T)
MIT
Prof. Caroline Ross
Applied Sciences
11
Drift Flux & The Ideal Diode Equation (M-I-T)
Electrical, Optical, and Magnetic Materials and Devices (Spring 2020) (M-I-T)
MIT
Prof. Caroline Ross
Applied Sciences
12
Examples of Diodes (M-I-T)
Electrical, Optical, and Magnetic Materials and Devices (Spring 2020) (M-I-T)
MIT
Prof. Caroline Ross
Applied Sciences
13
More Examples of Diodes & Summary (M-I-T)
Electrical, Optical, and Magnetic Materials and Devices (Spring 2020) (M-I-T)
MIT
Prof. Caroline Ross
Applied Sciences
14
MOS Devices: Band Structure Under Applied Voltage (M-I-T)
Electrical, Optical, and Magnetic Materials and Devices (Spring 2020) (M-I-T)
MIT
Prof. Caroline Ross
Applied Sciences
15
MOS Devices: Introduction and Equilibrium Band Structure (M-I-T)
Electrical, Optical, and Magnetic Materials and Devices (Spring 2020) (M-I-T)
MIT
Prof. Caroline Ross
Applied Sciences
16
MOSFET: Applications & Examples (M-I-T)
Electrical, Optical, and Magnetic Materials and Devices (Spring 2020) (M-I-T)
MIT
Prof. Caroline Ross
Applied Sciences
17
pn Junction Electrostatics (M-I-T)
Electrical, Optical, and Magnetic Materials and Devices (Spring 2020) (M-I-T)
MIT
Prof. Caroline Ross
Applied Sciences
18
Position Dependence of Carrier Concentration at Steady State (M-I-T)
Electrical, Optical, and Magnetic Materials and Devices (Spring 2020) (M-I-T)
MIT
Prof. Caroline Ross
Applied Sciences
19
Quantitative JFET Analysis (M-I-T)
Electrical, Optical, and Magnetic Materials and Devices (Spring 2020) (M-I-T)
MIT
Prof. Caroline Ross
Applied Sciences
20
Real Diodes: Zener & Avalanche (M-I-T)
Electrical, Optical, and Magnetic Materials and Devices (Spring 2020) (M-I-T)
MIT
Prof. Caroline Ross
Applied Sciences
21
Recombination and Generation (M-I-T)
Electrical, Optical, and Magnetic Materials and Devices (Spring 2020) (M-I-T)
MIT
Prof. Caroline Ross
Applied Sciences
22
Summary: Carrier Distribution (M-I-T)
Electrical, Optical, and Magnetic Materials and Devices (Spring 2020) (M-I-T)
MIT
Prof. Caroline Ross
Applied Sciences
23
Summary: Transistors (M-I-T)
Electrical, Optical, and Magnetic Materials and Devices (Spring 2020) (M-I-T)
MIT
Prof. Caroline Ross
Applied Sciences
24
Temperature Dependence of Carrier Density (M-I-T)
Electrical, Optical, and Magnetic Materials and Devices (Spring 2020) (M-I-T)
MIT
Prof. Caroline Ross
Applied Sciences
25
The Bipolar Junction Transistor (M-I-T)
Electrical, Optical, and Magnetic Materials and Devices (Spring 2020) (M-I-T)
MIT
Prof. Caroline Ross
Applied Sciences
‹
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