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nanoHUB-U: Thermoelectricity: From Atoms to Systems
ECE 595: Fundamentals of Nanoelectronics
ECE 659: Quantum Transport
2014 NCN-NEEDS Summer School: Spintronics - Science, Circuits, and Systems
nanoHUB-U: Fundamentals of Nanoelectronics - Part A: Basic Concepts, 2nd Edition
nanoHUB-U: Fundamentals of Nanoelectronics - Part B: Quantum Transport, 2nd Edition
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MIF generator for OOMMF
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17 Jun 2015 | Tools | Contributor(s): Zachary Yu, Jung Jin Park, Tanya Faltens, Rafatul Faria, Supriyo Datta
nanoHUB-U Fundamentals of Nanoelectronics B: Quantum Transport: Scientific Overview
11 Dec 2015 | Online Presentations | Contributor(s): Supriyo Datta
This video is the Scientific Overview for the nanoHUB-U course "Fundamentals of Nanoelectronics Part B: Quantum Transport" by Supriyo Datta.
MATLAB codes from the "Lessons from Nanoelectronics"
10 Dec 2015 | Downloads | Contributor(s): Supriyo Datta
Lessons From Nanoelectronics
10 Dec 2015 | Online Presentations | Contributor(s): Supriyo Datta
This talk is about a less-appreciated by-product of the microelectronics revolution, namely the deeper understanding of current flow, energy exchange and device operation that it has enabled, which forms the basis for what we call the bottom-up approach.
Non-Equilibrium Green's Function (NEGF): A Different Perspective
18 Sep 2015 | Online Presentations | Contributor(s): Supriyo Datta
The NEGF method was established in the 1960’s through the classic work of Keldysh and others  using the methods of many- body perturbation theory (MBPT) and this approach is widely used in the literature . By contrast I have introduced a different approach starting with the one-electron Schrödinger equation [3, 4] which is used by many in the nanoelectronics community. In this talk I will try to answer the questions I often get regarding the relation between the two approaches...
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The NEGF Approach to Nano-Device Simulation
The non-equilibrium Greens function (NEGF) formalism provides a powerful conceptual and computational framework for treating quantum transport in nanodevices. It goes beyond the Landauer approach for ballistic, non-interacting electronics to include inelastic scattering and strong...
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