High-Energy Physics       Condensed Matter Theory       Condensed Matter Experiment

• Computational condensed matter physics: ab-initio simulations for low-dimensional materials, focusing on electrical, mechanical and chemical properties.

• Spintronics: Interaction between magnon and photon in microcavity; First principle calculations of magnetic materials; Spin wave physics in magnetic materials.

• Quantum transport: Quantum transport in low-dimensional structures, e.g., quantum dot; Proximity effect and Josephson effect in superconducting heterojunctions; Quantum transport of topological materials.

• Quantum physics and quantum information: Quantum weak measurement; Quantum weak value; Continuous quantum measurement; Quantum feedback control; Superconducting circuits and quantum information processing system; Majorana topological quantum computing.

• Molecular and cluster physics: Finite size quantum effects & finite size thermodynamics; Clusters and fullerenes far from equilibrium; Thermally excited electronic states; Beyond the Born-Oppenheimer approximation; Nucleation; Light harvesting; Storage rings, mass spectrometers, and ion traps.