Online Simulation

And More

Top 25 Tags (all tags)

  1. algorithms
  2. aqme
  3. carbon nanotubes
  4. course lecture
  5. cyberinfrastructure
  6. devices
  7. education/outreach
  8. experiments
  9. material science
  10. molecular electronics
  11. nano/bio
  12. nanobio applications
  13. nano electro-mechanical systems
  14. nanoelectronics
  15. nanomedicine
  16. nanophotonics
  17. nano-transistors
  18. nanowires
  19. NEGF
  20. quantum dots
  21. quantum transport
  22. research seminar
  23. transistors
  24. tutorial
  25. uIllinois

Other

Trouble Report

For immediate assistance browse through our support center. You can find answers to many questions in just a few minutes.

If still experiencing problems, send us a report.

Sending report ...

Contributors: View

Muhammad Usman

Contributor picture

Contributions 1 (detailed usage)
Affiliation Purdue University, West Lafayette
Web Site http://web.ics.purdue.edu/~usman
Biography

Muhammad Usman is a PhD student at ECE department, Purdue University. His area of research is Strain and Electronic Calculations in Self-Assembled QDs. He works in the research group of Prof. Gerhard Klimeck. He is closely affiliated with NCN and nanohub.org. He is a student member of IEEE and APS.

Contributions

  • « Start
  • 1
  • End »

Results 1 - 1 of 1

  1. Atomistic Simulation of Realistically Sized Nanodevices Using NEMO 3-D—Part II: Applications

    This resource has a 8.6 Ranking

    Ranking is calculated from a formula comprised of user reviews and usage statistics. Learn more ›

    Usage Stats
    Last 12 Months: updated 01 Nov, 2008
    Users: 39
    Reviews & Citations
    Google/IEEE
    Avg. Review: 5.0 out of 5 stars
    Citations: 0

    39 users

    1 review (Review this)

    0 citations

    14 Jan. 2008 | Publications | Contributor(s): Gerhard Klimeck, Shaikh S. Ahmed, Neerav Kharche, Marek Korkusinski, Muhammad Usman, marta prada, Timothy Boykin

    In part I, the development and deployment of a general nanoelectronic modeling tool (NEMO 3-D) has been discussed. Based on the atomistic valence-force field and the sp3d5s* nearest neighbor tight-binding models, NEMO 3-D enables the computation of strain and electronic structure in nanostructures …

  • « Start
  • 1
  • End »

Results 1 - 1 of 1