Urbana-Champaign, 2008 Band structure of strongly correlated materials from the Dynamical Mean Field perspective K Haule Rutgers University Collaborators.
Quantum Chromodynamics (QCD) Main features of QCD Confinement Confinement At large distances the effective coupling between quarks is large, resulting.
Strongly Correlated Superconductivity G. Kotliar Physics Department and Center for Materials Theory Rutgers.
Strongly Correlated Electron Systems: a DMFT Perspective Gabriel Kotliar Physics Department and Center for Materials Theory Rutgers University Brookhaven.
High Temperature Superconductors. What can we learn from the study of the doped Mott insulator within plaquette Cellular DMFT. Gabriel Kotliar Center for.
Dynamical Mean Field Theory Approach to Strongly Correlated Materials Gabriel Kotliar Physics Department and Center for Materials Theory Rutgers University.
Gordon Conference 2007 Superconductivity near the Mott transition: what can we learn from plaquette DMFT? K Haule Rutgers University.
Theoretical and Experimental Magnetism Meeting Theoretical and Experimental Magnetism Meeting Gabriel Kotliar Rutgers University Support :National Science.
Challenges in Strongly Correlated Electron Systems: A Dynamical Mean Field Theory Perspective Challenges in Strongly Correlated Electron Systems: A Dynamical.
A new scenario for the metal- Mott insulator transition in 2D Why 2D is so special ? S. Sorella Coll. F. Becca, M. Capello, S. Yunoki Sherbrook 8 July.
Advanced Solid State Physics TU GRAZ
Excitation spectra
