Online Simulation

And More

Top 25 Tags (all tags)

  1. 0
  2. ACUTE
  3. algorithms
  4. aqme
  5. carbon nanotubes
  6. course lecture
  7. cyberinfrastructure
  8. devices
  9. education/outreach
  10. experiments
  11. material science
  12. molecular electronics
  13. nano/bio
  14. nanobio applications
  15. nano electro-mechanical systems
  16. nanoelectronics
  17. nanomedicine
  18. nanophotonics
  19. nano-transistors
  20. nanowires
  21. NEGF
  22. quantum dots
  23. quantum transport
  24. research seminar
  25. tutorial

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 ...

Computational Electronics

Drift-Diffusion Model, Part C: Sharfetter-Gummel, Time-Dependent Simulations

This resource has a 7.3 Ranking

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

Usage Stats
Last 12 Months: updated 01 Oct, 2008
Users: 154
Reviews & Citations
Google/IEEE
Avg. Review: 0.0 out of 5 stars
Citations: 0

154 users

0 reviews (Review this)

0 citations

View Presentation

Supporting Documents

Licensed under Creative Commons according to this deed.

Contributor(s) Dragica Vasileska
Arizona State University
Abstract Drift-Diffusion Model
Cite this work

If you reference this work in a publication, please cite as follows:

  • Vasileska, Dragica (2006), "Drift-Diffusion Model, Part C: Sharfetter-Gummel, Time-Dependent Simulations," http://www.nanohub.org/resources/1513/.

    BibTex | EndNote

Date posted 12 Jun, 2006
Type Online Presentations
Tags

Citations

The following are publications that have cited this resource, separated by their affiliation to the NCN.

No citations found.

Reviews

The following are reviews of this resource from other site members.

Write a review

No reviews found. Be the first to review this resource!

See also

The following are resources that may cover similar or related topics.

  • 8.8 Ranking Courses Part of: Computational Electronics

    Computational Electronics

    Type Courses
    Contributor(s) Dragica Vasileska
    Date 05 Jun, 2006
    Avg. Rating 4.5 out of 5 stars  (5)
    Rate this

    Scaling of CMOS devices into the nanometer regime leads to increased processing cost. In this regard, the field of Computational Electronics is becoming more and more important because device simulation offers unique possibility to test hypothetical devices which have not been fabricated yet and it …

People who looked at this also looked at:

Network Recommendations powered by CIKNOW developed by the Science of Networks in Communities Research (SONIC) group at Northwestern University.

Recommendations will load momentarily. If you do not see content change after 30 seconds, there may be a number of reasons:

  • You have javascript turned off in your browser.
  • You have browser incapable of handling the scripts that load the recommendations.
  • There is a problem with the recommendation service and it failed to respond.