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All Categories (101-120 of 131)

1. ECE 659 Lecture 30: Spin Density/Current

   10 Apr 2009 | | Contributor(s):: Supriyo Datta

2. ECE 659 Lecture 28: Spin-Orbit Interaction II

   04 Apr 2009 | | Contributor(s):: Supriyo Datta

3. ECE 659 Lecture 29: Hamiltonian Including Spin

   04 Apr 2009 | | Contributor(s):: Supriyo Datta

4. ECE 659 Lecture 27: Spin-Orbit Interaction I

   31 Mar 2009 | | Contributor(s):: Supriyo Datta

5. ECE 659 Lecture 26: Spin Matricies II

   29 Mar 2009 | | Contributor(s):: Supriyo Datta

6. ECE 659 Lecture 25: Spin Matricies I

   23 Mar 2009 | | Contributor(s):: Supriyo Datta

7. ECE 659 Lecture 24: Spin

   13 Mar 2009 | | Contributor(s):: Supriyo Datta

8. Spins and Magnets (Whiteboard lecture), Part 1

   out of 5 stars 

   06 Jan 2009 | | Contributor(s):: Supriyo Datta

   Whiteboard version of approximately the same material covered in Lectures 3A/3B.

9. Spins and Magnets (Whiteboard lecture), Part 2

   out of 5 stars 

   06 Jan 2009 | | Contributor(s):: Supriyo Datta

   Whiteboard version of approximately the same material covered in Lectures 3A/3B.

10. ECE 495N Lecture 38: Spin Rotation

    out of 5 stars 

    29 Dec 2008 | | Contributor(s):: Supriyo Datta

11. ECE 495N Lecture 37: Spin Matrices

    out of 5 stars 

    15 Dec 2008 | | Contributor(s):: Supriyo Datta

12. ECE 495N Lecture 36: Spin

    out of 5 stars 

    10 Dec 2008 | | Contributor(s):: Supriyo Datta

13. Lecture 3A: Spin Transport

    out of 5 stars 

    20 Aug 2008 | | Contributor(s):: Supriyo Datta

    Objective: To extend the model from Lectures 1 and 2 to include electron spin. Every electron is an elementary “magnet” with two states having opposite magnetic moments. Usually this has no major effect on device operation except to increase the conductance by a factor of two.But it is now...

14. Lecture 3B: Spin Transport

    out of 5 stars 

    20 Aug 2008 | | Contributor(s):: Supriyo Datta

    Objective: To extend the model from Lectures 1 and 2 to include electron spin. Every electron is an elementary “magnet” with two states having opposite magnetic moments. Usually this has no major effect on device operation except to increase the conductance by a factor of two.But it is now...

15. Spin Coupled Quantum Dots

    out of 5 stars 

    09 Jul 2008 | | Contributor(s):: John Shumway, Matthew Gilbert

    Path integral calculation of exchange coupling of spins in neighboring quantum dots.

16. Silicon Spintronics

    out of 5 stars 

    04 Jun 2008 | | Contributor(s):: Ian Appelbaum

    "Electronics" uses our ability to control electrons with electric fields via interaction with their fundamental charge. Because we can manipulate the electric fields within semiconductors, they are the basis for microelectronics, and silicon (Si) is the most widely-used semiconductor for...

17. 

    Ernesto Marinero

    https://nanohub.org/members/28203

18. The Novel Nanostructures of Carbon

    out of 5 stars 

    28 Feb 2008 | | Contributor(s):: Gene Dresselhaus

    A brief review will be given of the physical underpinnings of carbon nanostructures that were developed over the past 60 years, starting with the electronic structure and physical properties of graphene and graphite, and then moving to graphite intercalation compounds which contained the first...

19. Can numerical “experiments” INSPIRE physical experiments?

    out of 5 stars 

    20 Dec 2007 | | Contributor(s):: Supriyo Datta

    This presentation was one of 13 presentations in the one-day forum, "Excellence in Computer Simulation," which brought together a broad set of experts to reflect on the future of computational science and engineering.

20. Animations of magnetic QCA operation

    out of 5 stars 

    21 Oct 2007 | | Contributor(s):: Dmitri Nikonov, George Bourianoff

    Animations of an inverter and a majority gate operation for QCA logic for the paper"Simulation of highly idealized, atomic scale MQCA logic circuits"by Dmitri E. Nikonov, George I. Bourianoff, Paolo A. GarginiMore detailed description to follow.