Correlations Magnetism and Structure across the actinide series IWOSMA-3 Lyon June 2-3 (2006). G.Kotliar Physics Department and Center for Materials Theory.
DMFT approach to many body effects in electronic structure. Application to the Mott transition across the actinide series [5f’s]. G.Kotliar Phyiscs Department.
Dynamical Mean Field Theory (DMFT) Approach to Strongly Correlated Materials G. Kotliar Physics Department and Center for Materials Theory Rutgers SCES04.
Strongly Correlated Electron Materials : A Dynamical Mean Field Theory (DMFT) Perspective. Strongly Correlated Electron Materials : A Dynamical Mean Field.
Localization Delocalization Phenomena across the Mott transition:cracking open the f shell Miniworkshop on Actinides Theory and Experiments Karlsruhe.
U Si Ru The mystery of hidden order in URuSi2. Gabriel Kotliar K. Haule and G. Kotliar EPL 89 57006(2010) K. Haule and G. Kotliar Nature Physics 5:637‐641(2009)
Correlations Magnetism and Structure across the actinide series
Localization Delocalization Phenomena across the Mott transition:cracking open the f shell
Optical Properties of Strongly Correlated Electrons: A Dynamical Mean Field Approach
The Mott transition across the actinide series and the double life of delta Plutonium. The Mott transition across the actinide series and the double life.
Dynamical Mean Field Theory (DMFT) of correlated solids. G.Kotliar Physics Department Center for Materials Theory Rutgers University. Collaborators: K.
Gabriel Kotliar and Center for Materials Theory $upport : NSF -DMR DOE-Basic Energy Sciences Collaborators: K. Haule and J. Shim Ref: Nature 446, 513,