Collaborators: Ji-Hoon Shim, G.Kotliar Kristjan Haule, Physics Department and Center for Materials Theory Rutgers University Uncovering the secrets of.
Bishop’s Lodge, Santa Fe 2007 Modelling the Localized to Itinerant Electronic Transition in the Heavy Fermion System CeIrIn 5 K Haule Rutgers University.
Urbana-Champaign, 2008 Band structure of strongly correlated materials from the Dynamical Mean Field perspective K Haule Rutgers University Collaborators.
Tallahassee, 2008 Band structure of strongly correlated materials from the Dynamical Mean Field perspective K Haule Rutgers University Collaborators :
Introduction to Strongly Correlated Electron Materials, Dynamical Mean Field Theory (DMFT) and its extensions. Application to the Mott Transition. Gabriel.
Electronic Structure of Strongly Correlated Materials:a Dynamical Mean Field Theory (DMFT) approach Gabriel Kotliar Physics Department and Center for Materials.
Band structure of strongly correlated materials from the Dynamical Mean Field perspective
Rutgers Colloquium, 2008 Predicting and Understanding Correlated Electron Materials: A Computational Approach Kristjan Haule Collaborators: J.H. Shim &
Predicting and Understanding Correlated Electron Materials: A Computational Approach
Modelling the Localized to Itinerant Electronic Transition in the Heavy Fermion System CeIrIn 5
Optical Properties of Strongly Correlated Electrons: A Dynamical Mean Field Approach
The Mott Transition and the Challenge of Strongly Correlated Electron Systems.
