UROP Project Listing System
 
Project Title:
Quantum Oscillations in Low Dimensional System
Supervisor:WANG Ning
Co-Supervisor:-
Quota:5
Project Description:Basic quantum mechanical calculations for transport in low dimensional quantum system are used to explain the recently discovered novel transport measurements in low dimensional systems, such as graphene, atomically thin black phosphorous and Transition metal dichalcogenide (TMDC). Close collaboration between theory and experiment is expected.
Course type:UROP1000 UROP1100 UROP2100 UROP3100 UROP4100 
Applicant's Roles:Learn the fundamental physics of the quantum statistical mechanics in low dimensional system, such as Quantum Hall effect, Shubnikov de Hass oscillations and quantum capacitance measurement. Numerical simulation is also performed based on analytical work on these effects at low temperature and high magnetic field.  
Applicant's Learning Objectives:1. Fundamental physics with strong analytical background 2. Numerical techniques 3. Possible application in engineering and science of the experimental results  
Complexity of the project:Challenging 
 



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