Address: Room 352, Administration Building,Shenzhen University,Institute for Advanced Study, Shenzhen，Guangdong，china,518060
2014 Ph.D Department of Mathematics, The University of Hong Kong
2009 B.S.Department of Mathematics, Harbin Institute of Technology
2016.06-Present, Assistant Professor, Institute for Advanced Study, Shenzhen University.
2014.09-2016.05, Research Assistant, Department of Mathematics, The University of Hong Kong.
Complex analysis and its applications
complex differential equations and related topics
Integrable systems, nonlinear waves and dynamics.
K. W. Chow and C. F. Wu, The superposition of algebraic solitons for the modified Korteweg-de Vries equation,Commun. Nonlinear Sci.Numer. Simul., 19 (2014) 49-52.
C. F. Wu,Exact Meromorphic Stationary Solutions of the Cubic-Quintic Swift-Hohenberg Equation, Anal. Theory Appl., 30 (2014), 108-119.
C. F. Wu, H. N. Chan and K. W. Chow, A system of coupled partial differential equations exhibiting both elevation and depression rogue wave modes.Appl. Math. Lett., 47 (2015) 35-42.
R. Conte, T. W. Ng and C. F. Wu, Hayman's classical conjecture on some nonlinear second order algebraic ODEs, Complex Var. Elliptic. 60 (2015) 1539-1552.
C. F. Wu, R. H. J. Grimshaw, K. W. Chow, H. N. Chan, A coupled “AB” system: Roguewaves and modulation instabilities,Chaos 25 (2015) 103113.
Y. Zhang, J. W. Yang, K. W. Chow, C. F. Wu, Solitons, breathers and rogue waves for the coupled Fokas-Lenells system via Darboux transformation, Nonlinear Anal. Real World Appl.
T. W. Ng, C. F. Wu, Hayman's classical conjecture on factoriazble algebraic ODEs, submitted.
T. W. Ng, C. F. Wu, Meromorphic solutions of a third order ODE, in preparation.