All Categories (1-20 of 25)

1. 2D Valley-Spin Transport in Transition Metal Dichalcogenides

   Online Presentations | 07 May 2020 | Contributor(s):: Zhihong Chen

   In this talk, we first report that valley current can be electrically induced and detected through the valley Hall effect and inverse valley Hall effect, respectively, in monolayer molybdenum disulfide. We compare temperature and channel length dependence of non-local electrical signals in...

2. Graphene Nanoribbon Hall Effect

   Q&A|Closed | Responses: 2

   Hello

   I'm new here in the community, and I am currently working on the Hall effect of GNRs.

   My question is that, compared to the Hall effect in Graphene, how do I account...

   https://nanohub.org/answers/question/1553

3. 

   Alexander Sergeevich Fedotov

   https://nanohub.org/members/102671

4. Coupled Effect of Strain and Magnetic Field on Electronic Bandstructure of Graphene

   Papers | 07 Dec 2010 | Contributor(s):: yashudeep singh

   We explore the possibility of coupling between planar strain and perpendicular magnetic field on electronic bandstructure of graphene. We study uni-axially, bi-axially and shear strained graphene under magnetic field. In line with Rammal’s formalism using nearest neighbor tight binding scheme we...

5. Discussion Session 2 (Lectures 3 and 4)

   Online Presentations | 08 Sep 2010 | Contributor(s):: Supriyo Datta

6. ECE 606 L17.3: Transport - Carrier Concentration from Hall Effect

   Online Presentations | 20 Jul 2023 | Contributor(s):: Gerhard Klimeck

7. ECE 606 Lecture 10: Shockley, Reed, Hall and other Recombinations

   Online Presentations | 30 Sep 2012 | Contributor(s):: Gerhard Klimeck

8. ECE 606 Lecture 12: High Field, Mobility, Hall Effect, Diffusion

   Online Presentations | 10 Oct 2012 | Contributor(s):: Gerhard Klimeck

9. ECE 606 Lecture 17: Hall Effect, Diffusion

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   Online Presentations | 24 Feb 2009 | Contributor(s):: Muhammad A. Alam

   Outline:Measurement of mobilityHall Effect for determining carrier concentrationPhysics of diffusionConclusions

10. ECE 656 Lecture 17: Near-Equilibrium Measurements I

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    Online Presentations | 01 Nov 2011 | Contributor(s):: Mark Lundstrom

    Outline:IntroductionResistivity / conductivity measurementsHall effect measurementsThe van der Pauw methodSummary

11. ECE 656 Lecture 18: Near-Equilibrium Measurements II

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    Online Presentations | 01 Nov 2011 | Contributor(s):: Mark Lundstrom

    Outline:ReviewThe van der Pauw methodTemperature-dependent measurementsErrors in Hall effect measurementsGraphene: a case studySummary

12. ECE 659 Lecture 6: Hall Effect I

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    Online Presentations | 03 Feb 2009 | Contributor(s):: Supriyo Datta

13. ECE 659 Lecture 7: Hall Effect II

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    Online Presentations | 03 Feb 2009 | Contributor(s):: Supriyo Datta

14. Few-Body Insights Into the Quantum Hall Problem

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    Online Presentations | 05 Jan 2016

    This talk will summarize insights that emerge from theoretically treating a finite number of (3-8) electrons confined to a two-dimensional plane with a magnetic field oriented transversely.  This is the prototype system of strongly-correlated electrons in condensed matter physics, which...

15. Fundamentals of Current Flow

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    Papers | 30 Jan 2022 | Contributor(s):: Supriyo Datta

    Everyone is familiar with the amazing performance of a modern smartphone, powered by a billion-plus nanotransistors, each having an active region that is barely a few hundred atoms long. The same amazing technology has also led to a deeper understanding of the nature of current flow and heat...

16. Hall Effect - Theoretical Exercise

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    Teaching Materials | 03 Aug 2008 | Contributor(s):: Dragica Vasileska, Gerhard Klimeck

    www.eas.asu.edu/~vasileskNSF

17. How Plasmonic Materials Make Light Work at Nanoscale

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    Online Presentations | 06 Aug 2019 | Contributor(s):: Alexandra Boltasseva

18. Lecture 3: Introduction to NEGF

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    Online Presentations | 08 Sep 2010 | Contributor(s):: Supriyo Datta

19. Lecture 3A: Spin Transport

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    Online Presentations | 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...

20. Lecture 3B: Spin Transport

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    Online Presentations | 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...