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Unformatted text preview: 9/15/06 ECE 495W, Fall06 MSEE B010, MWF 330P 420P Fundamentals of Nanoelectronics All exercises, page numbers refer to S.Datta, Quantum Transport: Atom to Transistor, Cambridge (2005) HW#3: Based on Section 3.4, Page 71-78, but this may be hard to follow. So please rely more on class notes. Due Wednesday Sept.22 in class. Please turn in a copy of your MATLAB codes for Problem 1. You can use the MATLAB codes at the end of the text as a guide, but the codes you turn in should be your own work, not copied from the text. Problem 1: A box has two degenerate energy levels having energy = 0.05 eV, before including any self-consistent field due to electron-electron interactions. Write a MATLAB code to calculate the current for a negative voltage on the drain (contact 2), assuming that the the energy level remains fixed with respect to the source and neglecting any broadening of the energy levels....
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This note was uploaded on 02/19/2012 for the course ECE 495w taught by Professor Supriyodatta during the Fall '06 term at Purdue University-West Lafayette.
- Fall '06