MOSFET Design
Series | 12 Jan 2021 | Contributor(s): Stella Quinones, Jose Valdez
A series of homework assignments were created to introduce senior level undergraduate Electrical and Computer Engineering students to the design of MOSFETs by combining calculations of MOSFET related design parameters for a set of doping and oxide thickness values with the analysis of MOSFET...
Quantum Workshop IV: Modeling PN Junctions
Teaching Materials | 16 Mar 2015 | Contributor(s): Stella Quinones
Students explore the PN Junction Simulation Tool in order to understand depletion, carrier modeling, and PN junction device physics. Analyze (i) carrier concentration and electric field as a function of doping, and (ii) energy barriers, depletion widths, and net charge density as a function of...
Quantum Workshop III: LED Circuit and Device Physics
Teaching Materials | 07 Feb 2015 | Contributor(s): Stella Quinones
A hands-on learning exercise used to illustrate the device physics of a light emitting diode (LED) in a simple resistor circuit. Students explore the photon energy of four LEDs, compare the voltage drop (or forward bias) across the LED, and explain the behavior of the LED under...
Quantum Workshop II: Energy Band Model and Doping
Teaching Materials | 31 Jan 2015 | Contributor(s): Stella Quinones
This exercise uses several nanoHUB tools associated with fundamental semiconductor device knowledge, such as the Effect of Doping on Semiconductors, Semiconductor Doping, and Carrier Concentration tools. Students are asked to compare bond models with energy band models, examine...
Quantum Workshop I: Two Slit Experiment
Exercise using the "Particle-Wave Duality: an Animation" on nanoHUB as an introduction to an undergraduate quantum mechanics course. A series of questions allow students to analyze what is happening in the 2-slit experiment and to make conclusions about the behavior...
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