Tel: 2766-5681, Fax: 2333-7629 E-mail: C.H.Lam@polyu.edu.hk
(Curriculum vitae)
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Department of Applied Physics
Hong Kong Polytechnic University
Hung Hom, Hong Kong.
Tel: 2766-5681, Fax: 2333-7629 E-mail: C.H.Lam@polyu.edu.hk (Curriculum vitae) |
Waves and Optics (B.Sc. in Engineering Physics)
Computational Physics (B.Sc. in Engineering Physics)
Simulation Methods in Nonlinear Sciences (B.Sc. in Engineering Physics)
Fast kinetic Monte Carlo simulation of strained heteroepitaxy in three dimensions, C.-H. Lam, M.T. Lung, and L.M. Sander, Submitted to J. Sci. Comp. (Springer).
Green's function and super-particle methods for kinetic simulation of heteroepitaxy, C.-H. Lam and M.T. Lung, Int. J. Mod. Phys. B 21, 4219 (2007).
Dissipative dynamics of coupled quantum dots under quantum measurement, S.H. Ouyang, C.H. Lam, and J.Q. You, Journal of Physics: Condensed Matter 18, 11551 (2006).
Beyond the heteroepitaxial quantum dot: self-assembling complex nanostructures controlled by strain and growth kinetics , J.L. Gray, R. Hull, C.-H. Lam, P. Sutter, J. Means, and J.A. Floro, Physical Review B 72, 155323 (2005). (Moives showing the formation of pits from kinetic Monte Carlo simulations)
Island, pit and groove formation in strained heteroepitaxy, M.T. Lung, C.-H. Lam, and L.M. Sander, Physical Review Letters, 95, 086102 (2005)
Exact scalings in competitive growth models, L.A. Braunstein and C.-H. Lam, Physical Review E, 72, 026128 (2005)
Fluid Invasion in Porous Media: Viscous Gradient Percolation, C.-H. Lam, Physical Review Letters, 92, 254503 (2004)
Competing roughening mechanisms in strained heteroepitaxy: a fast kinetic Monte Carlo study , C.-H. Lam, C.K. Lee, and L.M. Sander, Physical Review Letters, 89, 216102 (2002)
Reply to Comment on "Pipe network model for scaling of dynamic interfaces in porous media", C.-H. Lam and V.K. Horvath, Physical Review Letters 86, 6047 (2001)
Superconducting charge qubits: The roles of self and mutual inductances , J.Q. You, C.-H. Lam and H.Z. Zheng, Physical Review B 63, 180501R (2001).
Pipe network model for scaling of dynamic interfaces in porous media , C.-H. Lam and V.K. Horvath, Physical Review Letters 85, 1238 (2000)
Landauer-Buttiker formula for time-dependent transport through resonant-tunneling structures: A nonequilibrium Green's function approach , J.Q. You, C.-H. Lam,and H.Z. Zheng, Physical Review B 62, 1978 (2000)
Improved discretization of the Kardar-Parisi-Zhang equation , C.-H. Lam and F.G. Shin, Physical Review E 58, 5592 (1998)
Formation and dynamics of modules in a dual-tasking multi-layer feed-forward neural network , C.-H. Lam and F.G. Shin, Physical Review E 58, 3673 (1998)
Anomaly in Numerical Integrations of the Kardar-Parisi-Zhang Equation , C.-H. Lam and F.G. Shin, Physical Review E 57, 6506 (1998)
Sierpinsky gasket (by LUNG Man Tat, M.Phil. graduate)
(job vacancies job opportunities)