1. Empirical Tight-binding Parameterization of SmSe in the sp3d5f7s* model

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   26 Mar 2013 | Downloads | Contributor(s): Zhengping Jiang, Marcelo Kuroda, Yaohua Tan, Dennis M. Newns, Michael Povolotskyi, Timothy Boykin, Tillmann Christoph Kubis, Gerhard Klimeck, Glenn J. Martyna

   The Empirical Tight Binding(ETB) method is widely used in atomistic device simulations. The reliability of such simulations depends very strongly on the choice of basis sets and the ETB parameters. The Piezoelectronic Transistor (PET) has been proposed as a post-CMOS device for fast, low-power …

2. The Single-Atom Transistor: How it was created and what it may mean for the future

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   21 Dec 2012 | Online Presentations | Contributor(s): Gerhard Klimeck

   Professor Gerhard Klimeck will be coming to speak on his research with single atom transistors.

3. ECE 606 Lecture 27: Looking Back and Looking Forward

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   20 Dec 2012 | Online Presentations | Contributor(s): Gerhard Klimeck

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4. ECE 606 Lecture 26: The Future of Computational Electronics

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   20 Dec 2012 | Online Presentations | Contributor(s): Gerhard Klimeck

   Future Transistors and Single Atom Transistors; New Modeling Tools (NEMO); nanoHUB: Cloud Computing - Software as a Service

5. ECE 606 Lecture 25: Modern MOSFETs

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   03 Dec 2012 | Online Presentations | Contributor(s): Gerhard Klimeck

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1. nanoHUB.org Publications on Impact

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   As a large science gateway site and the largest nanotechnology facility in the world, nanoHUB.org is continually assessing and studying its impact through a growing variety of metrics. We have published and will continue to publish overviews as well as more detailed studies concerning the impact …

2. Bulk Monte Carlo Learning Materials

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   (Image(, 500px) failed - File not found) By completing the Bulk Monte Carlo Lab tool exercises and tests, users will be able to: a) understand the way the Boltzmann Transport Equation (BTE) is solved using the Monte Carlo method, b) the concept of drift velocity and average carrier energy, c) the …

3. SCHRED Learning Materials

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   By completing the Schred, users will be able to: a) understand the concept of bound states in a MOS capacitor structure, b) the meaning of the eigenvalues and the eigenvectors, and c) the form of the eigenvalues and the eigenvectors for triangular confinement. The specific objectives of the …

4. Resonant Tunneling Diode Learning Materials

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   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. The specific …

5. Bound States Lab Learning Materials

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   by Dragica Vasileska and Gerhard Klimeck

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