Objectives

Research Areas

  1. Strongly Correlated Electrons
    1. Quantum Phase Transition (D. Sheng)
    2. Periodic and Disordered Anderson lattice (Y. Luo, C.Verdozzi, N. Kioussis)
    3. Heavy Fermion Systems (E. Collins, N. Kioussis)
    4. High Tc (D. Sheng)
    5. Electron-phonon interactions (C.Verdozzi, N. Kioussis)
  1. Mechanical Properties
    1. Dislocation Core (A. Coho, N. Kioussis)
    2. Brittle-Ductile (A. Coho, N. Kioussis)
  1. H-Bonded Ferroelectrics
    1. Ferroelectric Transition (C. Liu, N. Kioussis)
    2. Defects Reactions (C. Liu, N. Kioussis)
  1. Surfaces/Interfaces
    1. Metal-Oxide Interfaces (C. Verdozzi, P.A. Schultz, R. Wu, A.H. Edwards, N. Kioussis)
    2. Ge adatoms on Si surface (H. Gotsis, D. Papaconstantopoulos, N. Kioussis)
    3. H20 Chemisorption on inter metallics (M. Tovar, C. Liu, N. Kioussis)
  1. Transport
    1. Double Barrier Junctions (A. Kalitsov, A. Coho, N. Kioussis, A. Vedayev)
    2. High Magnetic Field (D. Sheng)
  1. Nano
    1. Quantum Dots (Y. Luo, N. Kioussis)
    2. Nanotubes (H. Scudder, G. Lu, N. Kioussis)
    3. Kondo Clusters (Y. Luo, C. Verdozzi, N. Kioussis)

Please direct questions or comments regarding site content to Linda Gharakhanian.

Last updated: December 29, 2003