國立中興大學物理學系

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廖思善

Tel 22840427 分機618   非線性物理 / 經濟物理 / 生物物理
  • 學 歷 Education
    美國約翰霍普金斯大學博士
    國立台灣大學物理系碩士
    國立台灣大學物理系學士
     
    經歷 Work Experience
    國立中興大學物理系教授(1995-present)
    國立中興大學物理系副教授(1989-1995)
  • 非線性物理 / 經濟物理 / 生物物理

    20141216 【地球證詞導讀 - 世界規律形狀】教學影片

    1. Sy-Sang Liaw and Jiann-Yeu Chen, “Characterizing sleep stages by the fractal dimensions of electroencephalograms”, Biostatistics and Biometrics Open Access Journal MS.ID.555584 (2017).
    2. Sy-Sang Liaw and Cheng-Yen Wang, “Stock markets are unpredictable, but can be exploitable”, J. Statistical and Mathematical Sciences 2, 39-43 (2016).
    3. Wei-Shen Li, Yun-Jie Tsai, Yu-Hsien Shen, and Sy-Sang Liaw, “General and specific statistical properties of foreign exchange markets during a financial crash”, Physica A451, 601-622 (2016).
    4. WeiShen Li and Sy-Sang Liaw*, “Abnormal statistical properties of stock indexes during a financial crash”, Physica A 422, 73-88 (2015).
    5. Li, WS; Liaw, SS, “Return volatility interval analysis of stock indexes during a financial crash”, Physica A 434 (2015) 151–163
    6. Yung-Rong Lee and Sy-Sang Liaw*, “A diffusion-reaction model for producing a suitable environment for stem cells in tissues”, Chin. J. Phys. 52, 927-933 (2014).
    7. Fei Fang Chung* and Sy-Sang Liaw, “Phase transition induced symmetry breaking in granular materials", Granular Matter 15, 57-63(2013).
    8. Ruey-Tarng Liu, Fei Fang Chung, and Sy-Sang Liaw*, “Fish play Minority Game as humans do”, Europhysics Letters 97, 20004 (2012).
    9. Fei Fang Chung*, Sy-Sang Liaw, and Wei Chun Chang, “Collective motion of inelastic particles confined by two oscillating walls”, Granular Matter 13, 787 (2011).
    10. Syue-Yi Liaw, Fei Fang Chung, and Sy-Sang Liaw*, “Horizontal segregation of the mono-layer granules coordinated by the vertical vibration”, European Physical Journal E 34, 59 (2011).
    11. Panupat Chaiworn, Fei Fang Chung, Cheng-Yen Wang, and Sy-Sang Liaw*, “Brazil nut effect in annular containers”, Granular Matter 13, 379 (2011).
    12. Sy-Sang Liaw* and Feng-Yuan Chiu, “Constructing crossover-fractals using intrinsic mode functions”, Advances in Adaptive Data Analysis 2, 509 ( 2010).
    13. Sy-Sang Liaw*, Feng-Yuan Chiu, Cheng-Yen Wang, and You-Hsien Shiau “Fractal analysis of stock index and electrocardiograph”, Chinese Journal of Physics 48(6), 814 (2010).
    14. Fei Fang Chung, Sy-Sang Liaw*, and Ming Chung Ho, “Energy and phase transition in a vibrating granular system ”, Granular Matter 12, 369 (2010).
    15. Sy-Sang Liaw, “Maximise global gain in the Minority game, Research Letters in Physics, ID410950 (2009) (doi:10.1155/2009/410950).
    16. Sy-Sang Liaw* and Feng-Yuan Chiu, “Fractal dimensions of time sequences”, Physica A388, 3100 (2009) (doi:10.1016/j.physa.2009.04.011).
    17. Fei Fang Chung, Sy-Sang Liaw*, and Chia-Yi Ju, “Brazil nut effect in a rectangular plate under horizontal vibration, Granular Matter 11, 79 (2009).
    18. Sy-Sang Liaw, “Frequency distributions of complex systems”, J. Stat. Mech. P05015 (2008).
    19. Fei Fang Chung, Sy-Sang Liaw*, and Chia-Yi Ju, “Spiral trajectories in the horizontal Brazil nut effect”, Phys. Rev. E 77, 061304 (2008).
    20. C.H. Hung and S.S. Liaw*, “Statistical properties of Taiwan stock market, Chin. J. Phys. 45, 716 (2007).
    21. Chia-Hsiang Hung and Sy-Sang Liaw*, “Effective history length of the minority game”, Physica A382, 129 (2007), doi:10.1016/j.physa.2007.02.048.
    22. Ruey-Tarng Liu*, Sy-Sang Liaw, and Philip K. Maini, “Oscillatory Turing patterns in a simple reaction-diffusion system”, J. Korean Phys. Soc. 50, 234 (2007).
    23. Fei Fang Chung, Ruey- Tarng Liu*, and Sy-Sang Liaw, “Horizontal size segregation in granular matter”, J. Korean Phys. Soc. 50, 224 (2007).
    24. S.S. Liaw*, C.H. Hung, and C. Liu, “Three phases of the minority game”, Physica A374, 359(2007).
    25. R.T. Liu and S.S. Liaw*, “Whorled Patterns of Phyllotaxis”, Int. J. Mod. Phys. C18, 1811 (2007).
    26. R.T. Liu ,S. S. Liaw*, and P.K. Maini, “Two-stage Turing model for generating patterns of the leopard and the jaguar”, Phys. Rev. E74, 011914 (2006). Nature 422, Research Highlights p.604 (August10, 2006). Nature, News http://www.nature.com/news/2006/060731/full/060731-15.html
    27. C. Liu and S.S. Liaw*, “Maximize personal gain in the minority game”, Physica A359 , 641(2006); A360, 516 (2006).
    28. S.S. Liaw* and C. Liu, “The quasi-periodic time sequence of the population in minority game”, Physica A351, 571 (2005).
    29. Y.S. Huang*, F.L. Chang, and S.S. Liaw,”Analysis of alkaline atoms in elliptic states”, Int. J. Mod. Phys. B18, 349 (2004).
    30. S. S. Liaw, "Auger width and branching ratios of 2s^2 2p^2 ^3P and 2s2p^3 ^5S resonances”, Phys. Rev. A67, 062707 (2003). 計畫編號:NSC-91-2112-M-005-008
    31. S.S. Liaw, "Find the Mandelbrot-like sets in any mapping," Fractals 10, 137 (2002)
    32. S. S. Liaw, "Parameter space of one-parameter complex mappings", Chaos, Solitons, & Fractals 13, 761 (2002).
    33. Y.S. Huang and S.S. Liaw*, “Quantum elliptic states of alkaline atoms,” Mod. Phys. Lett. B15 , 1467 (2001). 計畫編號:NSC-89-2112-M-005-005
    34. S. S. Liaw*, C.C. Yang, R.T. Liu, and J.T. Hong, "Turing model for the patterns of lady beetles", Phys. Rev. E64, 041909 (2001). (Physics News Update No.558#3, Sep. 26, 2001; SciScape 最新消息9/28, 2001). 計畫編號:NSC-90-2112-M-005-002
    35. S. S. Liaw, "Structure of the cubic mappings", Fractals 9, 231 (2001).
    36. Y. S. Huang, and S. S. Liaw*, "Confined hydrogen in uniform electric field," Mod. Phys. Lett. B14, 675 (2000). 計畫編號:NSC-89-2112-M-005-005
    37. Y. S. Huang, and S. S. Liaw*, "Level stability of the quantum dots with impurity," Mod. Phys. Lett. B13, 977 (1999). NSC-89-2112-M-005-005
    38. Y. S. Huang, C. C. Yang, and S. S. Liaw*,  "Relativistic solution of hydrogen in a spherical cavity," Phys. Rev. A60, 85 (1999). NSC-89-2112-M-005-005
    39. C. C. Cheng and S. S. Liaw, "Similarity between the dynamic and parameter spaces in cubic mappings," Fractals 6, 296  (1998). 計畫編號:NSC-87-2112-M-005-
    40. S. S Liaw, “The parameter space of cubic polynomials” Fractals 6,181 (1998). 計畫編號:NSC-87-2112-M-005-
    41. S. S. Liaw, "Phyllotaxis: its geometry and dynamics“, Phys. Rev. E57, 4589 (1998).
    42. S. S. Liaw, "Ab initio calculation of the bound strength of the molecule HF" J. Korean Phys Soc. 32, 326 (1998). 計畫編號:NSC-86-2112-M-005-003
    43. S. S. Liaw, "Ab initio calculation of energies and transition probabilities for the Be-like ions," Chin. J. Phys 35, 692 (1997). 計畫編號:NSC-85-2112-M-005-001
    44. S. S. Liaw, "Numerical test of Lamb shift formulas for Li-isoelectronic sequence," Chin. J. Phys. 33, 505 (1995). 計畫編號:NSC-84-2112-M-005-008
    45. S. S. Liaw, "Ab initio calculation of the lifetimes of 4p and 3d levels of Ca+," Phys. Rev. A51, R1723 (1995). 計畫編號:NSC-84-2112-M-005-008
    46. S. S. Liaw, "Bound states of Ca-," Phys. Rev. A52, 1754 (1995). 計畫編號:NSC-84-2112-M-005-008
    47. S. S. Liaw, "Brueckner approximation and its perturbative corrections for many- electron systems," Chin. J. Phys. 32, 835 (1994). 計畫編號:NSC-83-0208-M-005-019
    48. S. S. Liaw and F. Y. Chiou, "Gauge-invariant approach to the calculation of  transition probabilities for many-electron systems," Phys. Rev. A49, 2435 (1994) 計畫編號:NSC-82-0208-M-005-051
    49. S. S. Liaw, "Energy levels and transition amplitudes for alkaline-metal atoms in the Brueckner approximation," Phys. Rev. A48, 3555 (1993). 計畫編號:NSC-82-0208-M-005-051
    50. S. S. Liaw, "Perturbative calculation of transition amplitudes for Cesium," Phys. Rev. A47, 1762 (1993). 計畫編號:NSC-82-0208-M-005-051
    51. S. S. Liaw, "Dipole oscillator strengths for the alkali-like ions," Can J. Phys. 70, 1279 (1992) 計畫編號:NSC-81-0208-M-005-04
    52. S. S. Liaw, "Transition amplitudes in the Dirac-Fock approximation," Can. .J. Phys. 70, 644 (1992). 計畫編號:NSC-80-0204-M-005-01
    53. G. Feldman, T. Fulton, S. S. Liaw, and I. Lindgern, " Relationship Between the Two-Particle and the Two-Hole Approach in the Coupled Cluster Approximation and its Connection to the Green's Function Formalism," Phys. Scr. 41, 227 (1990).
    54. S. S. Liaw, G. Feldman, and T. Fulton, " Energies and Transition Amplitudes for Atoms with Non-degenerate Cores, Plus or Minus Two Electrons," Phys. Rev. A38, 5985 (1988).
    55. S. S. Liaw, G. Feldman, and T. Fulton, " Numerical study of the Role of Shielding and Exchange Effects and of Correlation and Relativistic Corrections in the Dirac-Fock Approximation," Phys. Rev. A38, 1126 (1988).
    K. L. Chang and S. S. Liaw, " Magnetic Monopole and Mixing Angle in Weinberg-Salam's Theory," Lettere al Nuovo, 39, 23 (1984).