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ELECTRONIC STRUCTURE OF STRONGLY CORRELATED SYSTEMS G.A.SAWATZKY UBC PHYSICS & ASTRONOMY AND CHEMISTRY Max Planck/UBC center for Quantum Materials.
Interplay between spin, charge, lattice and orbital degrees of freedom Lecture notes Les Houches June 2006 George Sawatzky.
Spin-orbit coupling based spintronics: Extraordinary magnetoresistance studies in semiconductors Tomas Jungwirth University of Nottingham Bryan Gallagher,
Spintronics in metals and semiconductors Tomas Jungwirth University of Nottingham Bryan Gallagher, Tom Foxon, Richard Campion, Kevin Edmonds, Andrew Rushforth,
D-wave superconductivity induced by short-range antiferromagnetic correlations in the Kondo lattice systems Guang-Ming Zhang Dept. of Physics, Tsinghua.
Spin-orbit coupling and spintronics in ferromagnetic semiconductors (and metals) Tomas Jungwirth University of Nottingham Bryan Gallagher, Tom Foxon, Richard.
Elemental Plutonium: Electrons at the Edge Gabriel Kotliar Physics Department and Center for Materials Theory Rutgers University Colloquium UT July 2003.
Electronic Structure Near the Mott transition Gabriel Kotliar Physics Department and Center for Materials Theory Rutgers University.
Electronic Structure of Correlated Materials : a DMFT Perspective
Strongly Correlated Electron Systems: a DMFT Perspective
Correlation Effects in Itinerant Magnets : Towards a realistic Dynamical Mean Field Approach