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Atomic Picture of Plastic Deformation in Metals via Online Molecular Dynamics Simulations
Courses | 01 Jun 2011 | Contributor(s):: Alejandro Strachan
The main goal of this learning module is to introduce students to the atomic-level processes responsible for plastic deformation in crystalline metals and help them develop a more intuitive understanding of how materials work at molecular scales. The module consists of: i) Two introductory...
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Atomistic Material Science
Courses | 03 Nov 2011 | Contributor(s):: Alejandro Strachan
This course introduces first principles electronic structure calculations of materials properties and the concept of molecular dynamics (MD) simulations of materials focusing on the physics and approximations underlying the simulations and interpretation of their results.
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Computational Electronics
Courses | 02 Jun 2006 | Contributor(s):: Dragica Vasileska
Scaling of CMOS devices into the nanometer regime leads to increased processing cost. In this regard, the field of Computational Electronics is becoming more and more important because device simulation offers unique possibility to test hypothetical devices which have not been fabricated yet...
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ECE 595E Numerical Simulations for Energy Applications
Courses | 17 Jan 2013 | Contributor(s):: Peter Bermel
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ECE 695NS: Numerical Simulations of Electro-optic Energy Systems
Courses | 10 Jan 2017 | Contributor(s):: Peter Bermel
SPring 2017This course is currently in production. It is made available in this incomplete form to support the student currently taking this course.
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Micromagnetics and OOMMF Tutorial Series
Courses | 20 Aug 2020 | Contributor(s):: Michael Joseph Donahue
Background readingThe following papers provide nice introductions to micromagnetics theory and practice:Micromagnetism by Lukas Exl, Dieter Suess and Thomas Schrefl.General Micromagnetic Theory and Applications, Helmut Kronmüller in Materials Science and Technology, 2019 Wiley-VCH Verlag...
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Tutorial 4: Far-From-Equilibrium Quantum Transport
Courses | 23 Mar 2011 | Contributor(s):: Gerhard Klimeck
These lectures focus on the application of the theories using the nanoelectronic modeling tools NEMO 1- D, NEMO 3-D, and OMEN to realistically extended devices. Topics to be covered are realistic resonant tunneling diodes, quantum dots, nanowires, and Ultra-Thin-Body Transistors.