Researchers should cite this work as follows:
Burton Morgan, Rm 121, Purdue University, West Lafayette, IN
|Lecture Number/Topic||Online Lecture||Video||Lecture Notes||Supplemental Material||Suggested Exercises|
|NEMO5 Overview Presentation||View HTML
|This presentation gives an overview of the current functionality of NEMO5.
|NEMO5 Tutorial 1: NEMO5 Technical Overview||View HTML
|This tutorial goes over the following topics:
Run a job on workspace
|NEMO5 Tutorial 2: Input and Output||View HTML
|NEMO5 Tutorial 3: Models||View HTML
|This tutorial presents the models implemented in NEMO5. A description on how the solvers interact with each other is reported along with the options of the various solvers. An example on how to make …
|NEMO5 Tutorial 4B: Device Modeling - Metals||View HTML
|Describes some of the modifications made to NEMO5 to include Nth nearest neighbor interactions so that metal electronic structure and transport can be studied. Also includes instructions on how to …
|NEMO5 Tutorial 4C: Graphene Nanostructures||View HTML
|NEMO5 Tutorial 4D: NEMO5 Python Solvers||View HTML
|This tutorial presents a brief introduction to PythonSolvers, a way to expand NEMO5 functionality using Python. Basic principles and a walk through are presented.
|NEMO5 Tutorial 5A: Devi ce Simulation - Quantum Dots||View HTML
|This presentation introduces the capabilities of NEMO5 to simulate quantum dots.
|NEMO5 Tutorial 5B: Strain||View HTML
|Learn how the NEMO5 strain solver works.
|NEMO5 Tutorial 5C: Quantum Dots with Strain and Electronic Wave Functions||View HTML
|NEMO5 Tutorial 6A: Device Simulation - Transport (Double Gate)||View HTML
|NEMO5 Tutorial 6B: Device Simulation - Quantum Transport in GaSb/InAs Tunneling FET||View HTML
|NEMO5 Tutorial 7: Using NEMO5 to Quantitatively Predict Topological Insulator Behaviour||View HTML