2005

1.      Molecular dynamics simulation of thermal and mechanical properties of polyimide-carbon-nanotube composites, Modelling Simul. Mater. Sci. Eng. 13 2005: 493-507.

2.      Synchronous chaos in the coupled system of two logistic maps, Chaos, Solitons and Fractals 23 2005: 909-913.

2004

  1. A two-point closure strategy in mapping closure approximation, Physical Review E 70(3) 2004: 036309.
  2. On the computations of space-time correlation by large-eddy simulation, Physics of Fluids 16(11) 2004: 3859-3867.
  3. Mapping closure approximation for chemically reacting flows, Acta Mechanica Sinica 20(4) 2004: 340-346.
  4. Multi-scale coupling in complex mechanical systems, Chemical Engineering Science 59 2004: 1677-1686.
  5. Multiscale coupling: challenges and opportunities, Progress in Natural Science 14 (6) 2004: 463-466.

2003

  1. The mapping closure approximation to the conditional dissipation rate for turbulent scalar mixing, Journal of Turbulence 4 2003: 1-7.
  2. A self-contained mapping closure approximation for scalar mixing,Center for Turbulence Research Annual Research Briefs 2003:277-284.

2002

  1. Effects of subgrid-scale modeling on time correlations in large eddy simulation, Physics of Fluids 14(7) 2002: 2186-2193.
  2. Evaluation of subgrid-scale models in terms of time correlations,Center for Turbulence Research Proceedings of the Summer Program 2002:73-78.

2000

  1. Solute flux approach to transport through spatially nonstationary flow in porous media, Water Resources Research 36(8) 2000: 2107-2120.
  2. A second order dynamic subgrid-scale stress model. Appl.Math.Mech. 21(2) 2000: 165-172.
  3. Possible statistics of two couple drandom fields: application to statistics of passive scalar, ICASE Report No.2000-41.

Before 1999

1.      Calculations of longitudinal and transverse velocity structure functions for a vortex model in isotropic turbulence, Physics of Fluids 11 1999: 3743-3747.

2.      An analysis of subgrid-resolved scale interactions with use of results from direct numerical simulations. Acta Mechanics Sinica 15(2) 1999: 108-115.

3.      Thermodynamical vs. Log-Poisson distribution in turbulence. Phys. Lett. A 245 1998: 419-424.

4.      Hierarchy of structure functions for passive scalars advected by turbulent flows. Phys. Lett. A. 246 1998:135-138.

5.      Statistics of dissipation and enstrophy induced by a set of Burgers vortices. Phys. Rev. Lett. 83(21) 1998: 4636-4639.

6.      About generalized scaling for passive scalar in fully developed turbulence, J. Physique II. France 7 1997: 793-800.

7.      Chaos of liquid-surface waves in a vessel under vertical excitation with slow-modulated amplitude, Acta Mechanics Sinica 13(2) 1997: 106-112.

8.      Suppressing chaos and transient in parameter perturbed System, Comm. Theor. Phys. 27 1997: 37-40.

9.      A Lambert and R Lima, Wavelike patterns in one-dimensional coupled map lattices, Physica D 103 1997: 404-411.

10.  Symmetry-breaking subharmonic bifurcations of periodically parameter-excited systems, Comm. Nonlinear Sci. Num. Sim. 1(4) 1996: 4-6.

11.  A Lambert and R Lima, Traveling waves in one-dimensional coupled map lattices, Comm. Nonlinear Sci. Num. Sim. 1(3) 1996: 16-20.

12.  Convective coupled maps for simulating spatiotemporal chaos in flows, Acta Mechanics Sinica 11(1) 1995: 1-7.

13.  Predicting chaotic time series with wavelet networks. Physica D 85(1/2) 1995: 225-238.

14.  A nonchaotic map with topological entropy infinite, Nonlinear Sci. Num. Sim. 1(2)1994: 13-16.

15.  Characterizing spatiotemporal chaos in coupled map lattice by Lyapunov exponent of complexity time series, Nonlinear Sci. Num. Sim. 1(2) 1994: 25-29.

16.  The mechanism of pattern selection in coupled map lattices, Phys. Lett. A 185 1994: 55-58,.

17.  Symmetric chaos and kink-antikink structures in CMLs, Phys. Lett. A 185 1994: 51-54.

18.  Zn-equivariant singularity theory. Appl. Math. Mech. 14(11) 1993: 1039-1045.