Zhennan Zhou

  • William W. Elliott Assistant Research Professor
  • Assist Research Professor in the Department of Mathematics

Research Areas and Keywords

Analysis
semi-classical methods in quantum dynamics, multi-scale methods for physics models, band crossing for Bloch electrons, kinetic theory, Born-Oppenheimer approximation
Biological Modeling
kinetic theory, numerical methods for conservation law
Computational Mathematics
semi-classical methods in quantum dynamics, multi-scale methods for physics models, band crossing for Bloch electrons, kinetic theory, Born-Oppenheimer approximation, numerical methods for conservation law
Mathematical Physics
semi-classical methods in quantum dynamics, multi-scale methods for physics models, band crossing for Bloch electrons, Born-Oppenheimer approximation
PDE & Dynamical Systems
semi-classical methods in quantum dynamics, multi-scale methods for physics models, band crossing for Bloch electrons, kinetic theory, Born-Oppenheimer approximation
Physical Modeling
semi-classical methods in quantum dynamics, multi-scale methods for physics models, band crossing for Bloch electrons, kinetic theory, Born-Oppenheimer approximation, numerical methods for conservation law
Education & Training
  • Ph.D., University of Wisconsin at Madison 2014

Liu, JG, Ma, Z, and Zhou, Z. "Explicit and Implicit TVD Schemes for Conservation Laws with Caputo Derivatives (Accepted)." Journal of Scientific Computing (January 6, 2017): 1-23. Full Text

Jin, S, Sparber, C, and Zhou, Z. "On the classical limit of a time-dependent self-consistent field system: Analysis and computation." Kinetic and Related Models 10.1 (November 2016): 263-298. Full Text

Chen, J, Liu, J-G, and Zhou, Z. "On a Schrödinger--Landau--Lifshitz System: Variational Structure and Numerical Methods." Multiscale Modeling & Simulation 14.4 (January 2016): 1463-1487. Full Text