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
Boltzmann Law: Physics to Computers
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Fundamentals of Current Flow
Papers | 30 Jan 2022 | Contributor(s): Supriyo Datta
Everyone is familiar with the amazing performance of a modern smartphone, powered by a billion-plus nanotransistors, each having an active region that is barely a few hundred atoms long. The same amazing technology has also led to a deeper understanding of the nature of current flow and heat...
Introduction to Quantum Transport
Purdue Microelectronics and Nanotechnology Overview
Online Presentations | 09 Sep 2021 | Contributor(s): Samantha Nelson, Muhammad A. Alam, Joerg Appenzeller, Zhihong Chen, Supriyo Datta, David Janes, Gerhard Klimeck, Dana Weinstein, Pramey Upadhyaya, Peide "Peter" Ye
In today’s modern world, microelectronics has touched every aspect of our lives. None of us can imagine or live in a world without personal computers, smart phones, and probably very soon autonomous cars. To continue its expansion and go beyond the traditional semiconductor technologies,...
Introduction to “Quantum”
Online Presentations | 14 May 2020 | Contributor(s): Supriyo Datta
Starter Codes for Purdue-P Coprocessor
Downloads | 27 Apr 2020 | Contributor(s): Lakshmi Anirudh Ghantasala, Brian Sutton, Kerem Yunus Camsari, Risi Kumar Jaiswal, Supriyo Datta
Included are MATLAB codes that run sample problems on the All-to-all, Nearest Neighbor, and Quantum Annealing topologies on the Purdue-P Coprocessor. Supporting image files are also included.
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The NEGF Approach to Nano-Device Simulation
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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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Spin Switch Model
23 Oct 2014 | Contributor(s): Samiran Ganguly, Kerem Yunus Camsari, Supriyo Datta | doi:10.4231/D3C824F8D
We present a circuit/compact model for the Spin Switch created using a Verilog-A based library of "spintronic lego blocks" building upon previous works on spin transport.