Harold Y. Hwang
Professor of Applied Physics and Photon ScienceDescription
Condensed Matter Physics
Materials physics: Probing correlated electrons at artificial interfaces and in confined systems; Atomic scale synthesis and control of complex oxide heterostructures; Low-dimensional superconductivity; Novel devices based on interface states in oxides.
Nanoscience and Quantum Engineering
Materials physics: Probing correlated electrons at artificial interfaces and in confined systems; Atomic scale synthesis and control of complex oxide heterostructures; Low-dimensional superconductivity; Novel devices based on interface states in oxides.
Selected Publications
- A High-Mobility Electron Gas at the LaAlO3/SrTiO3 Heterointerface
- Magnetocapacitance and Exponential Magnetoresistance in Manganite-Titanate Heterojunctions
- Why Some Interfaces Cannot be Sharp
- Polar Discontinuity Doping of the LaVO3/SrTiO3 Interface
- Enhanced Thermodynamic Stability of Epitaxial Oxide Thin Films
- Vanishing Hall Coefficient in the Extreme Quantum Limit in Photocarrier-Doped SrTiO3
- Spectroscopic Evidence for Competing Reconstructions in Polar Multilayers LaAlO3/LaVO3/LaAlO3
- Two-Dimensional Normal-State Quantum Oscillations in a Superconducting Heterostructure
- Microscopic Origins for Stabilizing Room Temperature Ferromagnetism in Ultrathin Manganite Layers
- Charge Writing at the LaAlO3/SrTiO3 Surface