| Adaptive mesh methods for one-and two-dimensional hyperbolic conservation laws H Tang, T Tang SIAM Journal on Numerical Analysis 41 (2), 487-515, 2003 | 324 | 2003 |
| A high-order gas-kinetic method for multidimensional ideal magnetohydrodynamics HZ Tang, K Xu Journal of Computational Physics 165 (1), 69-88, 2000 | 91 | 2000 |
| An adaptive mesh redistribution method for nonlinear Hamilton–Jacobi equations in two-and three-dimensions HZ Tang, T Tang, P Zhang Journal of Computational Physics 188 (2), 543-572, 2003 | 79 | 2003 |
| Numerical methods for nonlinear Dirac equation J Xu, S Shao, H Tang Journal of Computational Physics 245, 131-149, 2013 | 55 | 2013 |
| An adaptive ghost fluid finite volume method for compressible gas–water simulations C Wang, H Tang, T Liu Journal of computational physics 227 (12), 6385-6409, 2008 | 54 | 2008 |
| A note on the conservative schemes for the Euler equations H Tang, T Liu Journal of Computational Physics 218 (2), 451-459, 2006 | 53 | 2006 |
| Second-order accurate Godunov scheme for multicomponent flows on moving triangular meshes G Chen, H Tang, P Zhang Journal of Scientific Computing 34 (1), 64-86, 2008 | 51 | 2008 |
| High-Order Accurate Runge-Kutta (Local) Discontinuous Galerkin Methods for One-and Two-Dimensional Fractional Diffusion Equations. X Ji, H Tang Numerical Mathematics: Theory, Methods & Applications 5 (3), 2012 | 45 | 2012 |
| High-order accurate physical-constraints-preserving finite difference WENO schemes for special relativistic hydrodynamics K Wu, H Tang Journal of Computational Physics 298, 539-564, 2015 | 43 | 2015 |
| Accuracy of the adaptive GRP scheme and the simulation of 2-D Riemann problems for compressible Euler equations E Han, J Li, H Tang Communications in Computational Physics 10 (3), 577-609, 2011 | 43 | 2011 |
| An adaptive phase field method for the mixture of two incompressible fluids Z Zhang, H Tang Computers & fluids 36 (8), 1307-1318, 2007 | 42 | 2007 |
| An adaptive moving mesh method for two-dimensional ideal magnetohydrodynamics J Han, H Tang Journal of Computational Physics 220 (2), 791-812, 2007 | 40 | 2007 |
| A gas-kinetic scheme for shallow-water equations with source terms H Tang, T Tang, K Xu Zeitschrift für angewandte Mathematik und Physik ZAMP 55 (3), 365-382, 2004 | 38 | 2004 |
| A moving mesh method for the Euler flow calculations using a directional monitor function HZ Tang Commun. Comput. Phys 1, 656-676, 2006 | 37 | 2006 |
| Runge–Kutta discontinuous Galerkin methods with WENO limiter for the special relativistic hydrodynamics J Zhao, H Tang Journal of computational physics 242, 138-168, 2013 | 34 | 2013 |
| Higher-order accurate Runge-Kutta discontinuous Galerkin methods for a nonlinear Dirac model S Shao, H Tang Discrete & Continuous Dynamical Systems-B 6 (3), 623, 2006 | 32 | 2006 |
| An adaptive moving mesh method for two-dimensional relativistic hydrodynamics P He, H Tang Communications in Computational Physics 11 (1), 114-146, 2012 | 31 | 2012 |
| Solution of the shallow‐water equations using an adaptive moving mesh method H Tang International journal for numerical methods in fluids 44 (7), 789-810, 2004 | 30 | 2004 |
| A direct Eulerian GRP scheme for relativistic hydrodynamics: one-dimensional case Z Yang, P He, H Tang Journal of Computational Physics 230 (22), 7964-7987, 2011 | 29 | 2011 |
| An adaptive GRP scheme for compressible fluid flows E Han, J Li, H Tang Journal of Computational Physics 229 (5), 1448-1466, 2010 | 29 | 2010 |
Tao TangMathematics, Hong Kong Baptist University確認したメール アドレス: math.hkbu.edu.hk
