slkdp.physics.uiowa.edu
Positions | From Fundamental Physics to Device Design: Nanoscale Matter and The Flatte Research Group
http://slkdp.physics.uiowa.edu/positions
Flatté Research Group. From Fundamental Physics to Device Design. Applications for postdoctoral researchers are considered on a rolling basis. Absent an advertised deadline, please e-mail application material to me prior to February 1 if you are interested in an appointment in the fall of the same year. A complete application includes a CV, research statement, and three letters of recommendation (sent from your references). You are here →.
spintech8.unibas.ch
SpinTech VIII International School and Conference, Basel, August 2015 - About
https://spintech8.unibas.ch/pages/about.htm
International School and Conference — Basel, Aug. 10–13, 2015. Polish Academy of Sciences. University of Sao Paulo. The topics include experimental and theoretical investigations of. Spin current generation, manipulation, and detection. Spin coherence and manipulation. Topological insulators and graphene. Spintronic materials including metals, semiconductors and insulators (both organic and inorganic materials). Quantum information processing (including atoms in vacuum, etc.). 2013, Chicago, USA. 2001, H...
ncmt2011.uwo.ca
International Conference on Frontier Topics in Nanostructures and Condensed Matter Theory 2011
http://ncmt2011.uwo.ca/invited_speakers.html
The City of London. Registration and Conference Details. Scientific Program at a Glance. Scientific Program and Abstracts. Western Physics and Astronomy. The University of Western Ontario. Vladimir A. Miranskyy. Department of Applied Mathematics. University of Western Ontario, Canada. Professor of Physics and Mathematics. 519-661-2111 Ext. 88708. Http:/ www.apmaths.uwo.ca/people/vmiransky.shtml. Perimeter Institute of Theoretical Physics, Canada. Http:/ www.perimeterinstitute.ca/personal/ahamma/. Hunter ...
slkdp.physics.uiowa.edu
Publications | From Fundamental Physics to Device Design: Nanoscale Matter and The Flatte Research Group
http://slkdp.physics.uiowa.edu/publications
Flatté Research Group. From Fundamental Physics to Device Design. P M Koenraad and M. E. Flatté, " Single dopants in semiconductors. Review article for Nature Materials. 91-100, February 2011. M E Flatté, A. A. Kornyshev, and M. Urbakh, " Understanding voltage-induced localization of nanoparticles at a liquid-liquid interface. Topical Review for Journal of Condensed Matter. M E Flatté, " Semiconductor Spintronics for Quantum Computation. In Manipulating Quantum Coherence in Solid State Systems. Physical ...
slkdp.physics.uiowa.edu
Group Members | From Fundamental Physics to Device Design: Nanoscale Matter and The Flatte Research Group
http://slkdp.physics.uiowa.edu/group
Flatté Research Group. From Fundamental Physics to Device Design. Michael E. Flatté is an expert in condensed matter and materials theory, specializing in carrier and spin dynamics and their applications to novel semiconductor devices. Spin orbit interactions in 2 dimensional systems, particularly the effect of the SO interaction on the orbital motion. Scalable arrangements for the manipulation of a single Mn ion in GaAs. Research Group Members can login here. To update their Member pages.
slkdp.physics.uiowa.edu
Teaching | From Fundamental Physics to Device Design: Nanoscale Matter and The Flatte Research Group
http://slkdp.physics.uiowa.edu/teaching
Flatté Research Group. From Fundamental Physics to Device Design. 29:193 Introductory Solid State Physics. Course material available on ICON. You are here →. Michael E. Flatté Contact Me Website by Dendrite Development.