National Chiao Tung University

吳天鳴

Ten-Ming Wu

Ph. D., Physics, University of California, San Diego, 1991

E-mail: tmw@faculty.nctu.edu.tw

Research Interests Group Member Publications Collaborators Course

Research Interests

Ultrafast dynamics (vibrations and relaxations) in liquids and glasses
Localization-delocalization transitions in disordered systems
Molecular dynamics simulations in statistical mechanics

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Group Member

蔡昆憲 (Postdoc.)
　黃邦杰(Ph. D. Student)
　唐平翰(Master Student)

Graduated members

張世良 (Ph. D.)
陳昆河 (Master)
黃柏翰 (Master)
鍾宗穎 (Master)
阮凱驗 (Master)
黃楷智 (Master)
　莊依芳(Master)

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Publications

1. K. H. Tsai and T. M. Wu, “Hard sphere perturbation theory for a model of liquid Ga”, J. Chem. Phys. 129, 024503 (2008) pdf

2. K. H. Tsai, T. M. Wu, S. F. Tsay, and T. J. Yang, “Dynamic structure factor of liquid Ga close to the melting point: spectral linewidth at high momentum transfer”, J. Phys.: Condens. Matter 19, 205141 (2007) pdf

3. T. M. Wu, S. L. Chang, S. F. Tsay, and K. H. Tsai, “Simulations for the time evolution of instantaneous resonant modes: Creation, annihilation and mode exchange”, J. of Non-Cryst. Solids 352, 4615-4618 (2006) pdf

4. K. H. Tsai and T. M. Wu, “Local structural effects on low-frequency vibrational spectrum of liquid water: The instantaneous-normal-mode analysis”, Chem. Phys. Lett. 417, 390-395 (2006) pdf

5. T. M. Wu, S. L. Chang, and K. H. Tsai, “Mechanism for singular behavior in vibrational spectral of topologically disordered systems: Short-range attractions”, J. Chem. Phys. 122, 204501 (2005) pdf

6. S. L. Chang, T. M. Wu, and C. Y. Mou, “Instantaneous normal mode analysis of orientational motions in liquid water: Local structural effects”, J. Chem. Phys. 121, 3605-3612 (2004) pdf

7. W. J. Ma, T. M. Wu, J. Hsieh, and S. L. Chang, “Level statistics of Hessian matrices: Random matrices with conservation constraints”, Physica A 321, 364-368 (2003)

8. W. J. Ma, T. M. Wu, J. Hsieh, “Conservation constraints on random matrices”, J. Phys. A: Math. Gen. 36, 1451-1466 (2003)

9. T. M. Wu, W. J. Ma, S. L. Chang, and S. F. Tsay, “Local geometric structures of instantaneous resonant modes in Ga liquids”, Physica B 316, 606-609 (2002)

10. T. M. Wu, S. F. Tsay, S. L. Chang, and W. J. Ma, “Instantaneous resonant modes in high-temperature Gallium liquids”, Phys. Rev. B 64, 064204 (2001) pdf

11. S. L. Chang and T. M. Wu, “A possible nonpolar solvation mechanism at an intermediate time scale: the solvent-cage expansion”, Chem. Phys. Lett. 324, 381-388 (2000)

12. T. M. Wu and W. J. Ma, and S. L. Chang, “Characteristics of instantaneous resonant modes in simple dense fluids with short-ranged repulsive interactions”, J. Chem. Phys. 113, 274-281 (2000)

13. W. J. Ma and T. M. Wu, “Microscopic morphology and energy surface landscape in a supercooled soft-sphere system”, Phyisca A 281, 393-403 (2000)

14. J. J. Lin, T. K. Li, and T. M. Wu, “Electron-Phonon Scattering Times in Three-Dimensional Disordered SB Film”, Phys. Rev. B 61, 3170-3172 (2000)

15. T. M. Wu and S. L. Chang, “Dynamics of Atomic Pairs in A Lennard-Jones Fluids: Mean Relative Displacement Analysis,” Phys. Rev. E 59, 2993-3000 (1999)

16. T. M. Wu and W. J. Ma, “Evidence for Instantaneous Resonant Modes in Dense Fluids with Repulsive Lennard-Jones Force”, J. Chem. Phys. 110, 447 (1999)

17. T. M. Wu and S.F. Tsay, “Instantaneous Normal Modes of Na in Supercooled-Liquid and Glassy States”, Phys. Rev. B 58, 27 (1998)

18. T. M. Wu, W. J. Ma, and S.F. Tsay, “Potential Effects on Instantaneous Normal Modes of Liquids”, Physica A 254, 257-271 (1998)

19. T. M. Wu and S.F. Tsay, “Localized Instantaneous Normal Modes in Liquid Na”, Prog. Theo. Phys. Supp. 126, 343-347 (1997)

20. T. M. Wu and S.F. Tsay, “Instantaneous Normal Mode Analysis of Liquid Na”, J. Chem. Phys. 105, 9281-9287 (1996)

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