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Quantum Mechanics for Engineers: Podcasts
0.0 out of 5 stars
07 Jul 2008 | Series | Contributor(s): Dragica Vasileska, Gerhard Klimeck, David K. Ferry
4.5 out of 5 stars
02 Jun 2006 | Courses | Contributor(s): Dragica Vasileska
Renewable Energy Sources
17 May 2010 | Teaching Materials | Contributor(s): Dragica Vasileska
Quantum Mechanics: Stationary Perturbation Theory
10 Jul 2008 | Series | Contributor(s): Dragica Vasileska, Gerhard Klimeck
Basics of Quantum Mechanics
01 Jun 2010 | Teaching Materials | Contributor(s): Dragica Vasileska
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ABACUS—Introduction to Semiconductor Devices
When we hear the term semiconductor device, we may think first of the transistors in PCs or video game consoles, but transistors are the basic component in all of the electronic devices we use in our daily lives. Electronic systems are built from such components as transistors, capacitors,...
AQME Advancing Quantum Mechanics for Engineers
Introduction to Advancing Quantum Mechanics for Engineers and Physicists
“Advancing Quantum Mechanics for Engineers” (AQME) toolbox is an assemblage of individually authored tools that, used in concert, offer educators and students a one-stop-shop for semiconductor education....
ACUTE—Assembly for Computational Electronics
This nanoHUB “topic page” provides an easy access to selected nanoHUB educational material on computational electronics that is openly accessible.
We invite users to participate in this open source, interactive educational initiative:
content by uploading it to the nanoHUB. (See...
Computational Optoelectronics Course
This course teaches the students the basic principles for the operation of solar cells, light-emitting diodes, photodetectors and VCSELS. For some of these devices, numerical implementation details are given and source codes are provided together with simulation examples. The outline of...
Bound States Lab Learning Materials
By completing the Bound States Calculation Lab, users will be able to: a) understand the concept of bound states, b) the meaning of the eigenvalues and the eigenvectors, and c) the form of the eigenvalues and eigenvectors for rectangular, parabolic and triangular confinement.