Research Program

Research Program

Group T01: Theoretical study on the low-dimensional condensed matters
Yupeng Wang	Electron and Spin Properties of Low-Dimensional System
	Transport Properties of Artificial Nano Periodic Structure
LU Yu
Xincheng Xie	Quantized Hall effect
	Superconductivity
	Strongly correlated electron systems
	Electronic transport in nano-devices and semiconductors
Qingfeng Sun	Theory of Quantum Transport in Mesoscopic Systems
	Strongly Correlated Electron Systems and Kondo Effect
Junren Shi	Spin transports
	Berry phase and electron dynamics in solids
	Electron-phonon coupling
	Surface related phenomena
	Transports in low dimensional systems
Shu Chen
Hanting Wang	Magnetism of Strong-Correlation Systems
	Theory of Ferromagnetism
Junpeng Cao	Strong Correlated Electron Systems
	Exactly Integrable Model in Statistical Physics

Group T02: Computational physical research of solids and nanostructured materials
Banggui Liu	Physical Theory of Spintronic materials
	Theory of electronic and structural properties of nanostructures
Dingsheng Wang	Materials Design Based on First-Principle Calculations
	Theory of Surface Physics and Magnetism

Group T03:Theoretical and computational studies for unconventional phenomena in condensed matter physics
Zhong Fang	First-Principles Calculations for the Electroni c
	Novel Phenomena in Strongly Correlated Systems
	Quantum Simulations for Organic and Nano Systems
Wuming Liu	Magnetism Theory
	Theory of Strong Correlated Systems and Disorder Systems
	Matter Wave and Atomic Laser
	Nonlinear Integrable Model
Biao Wu	Bose-Einstein condensates
	surface physics
	molecular magnets
	geometric phase, quantum chaos, and others
Xi Dai
Yugai Yao	Theoretical Condensed Matter Physics
	Nonlinear science and statistical physics
Lifang Xu	First Principle Calculations, Classical Molecular Dynamics (MD) and Quantum Molecular Dynamics ( QMD) .
	2: Quantum Theory.
	3: Mixed Mesoscopic and Superconducting systems.

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