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.
Towards an Electronic Structure Method for Correlated Electron Systems based on Dynamical Mean Field Theory G. Kotliar Physics Department and Center for.
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)
U Si Ru Hidden Order in URu2Si2: can we now solve this riddle ? Gabriel Kotliar Work in collaboration with Kristjan Haule K. Haule and G. Kotliar EPL 89.
Strongly Correlated Electron Systems: a DMFT Perspective
Extensions of Single Site DMFT and its Applications to Correlated Materials
Gabriel Kotliar Physics Department and Center for Materials Theory
Electronic Structure of Strongly Correlated Materials:Insights from Dynamical Mean Field Theory (DMFT). Gabriel Kotliar Physics Department and Center for.
Electronic Structure of Strongly Correlated Materials:a Dynamical Mean Field Theory (DMFT) approach Gabriel Kotliar Physics Department and Center for Materials.