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   郑 波 教育部长江学者特聘教授
    1988
年中山大学博士
   
电话:0571-8795 3312, 13819494123(handy)
    Email: zhengbo@zju.edu.cn 
   
个人主页:http://zimp.zju.edu.cn/~cpsp

    研究领域:

   
早期研究方向为量子场论,如格点规范理论、随机量子化等。1994年以来主要兴趣在计算物理、非平衡态统计物理、软凝聚态物理和复杂系统等相关学科。应用 Monte Carlo 方法,在远离平衡态动力学的数值模拟方面取得创造性研究成果。首先提出的短时动力学测量方法可应用于连续相变和弱一级相变系统、无序系统、量子自旋系统和超流超导系统等。至今在国际SCI学术刊物发表论文一百十余篇。论文的SCI引文数2500余篇次。近期高度关注金融物理和生物物理等交叉学科。

Zheng, Bo
Professor
Ph. D. (1988), Zhongshan Univ.

Interests and activities:

My research interest is in computational physics, statistical physics, soft condensed matter physics and relevant interdisciplines. Since 1994, my research has focused on physical systems far from equilibrium. With Monte Carlo methods, we have systematically studied the short-time behavior of critical dynamics. General applications include dynamics with disorder, quantum spin systems, melting transitions and superconductors.

Selected publications:

1.  B. Zheng, Monte Carlo simulations of short-time critical dynamics, Int. J. Mod. Phys. B12
    (1998) 1419-1484, review article.

2.  Z.B. Li, L. Schuelke and B. Zheng, Dynamic Monte Carlo measurement of critical exponents,
    Phys. Rev. Lett. 74 (1995) 3396.

3.  B. Zheng, Generalized dynamic scaling for critical relaxations, Phys. Rev. Lett. 77 (1996)
    679.

4.  H.J. Luo, L. Schuelke and B. Zheng, Dynamic approach to the fully frustrated XY model,
    Phys. Rev. Lett. 81 (1998) 180.

5.  B. Zheng, M. Schulz and S. Trimper, Deterministic equations of motion and dynamic critical
    phenomena, Phys. Rev. Lett. 82 (1999) 1891.

6.  B. Zheng, M. Schulz and S. Trimper, Dynamic Simulations of the Kosterlitz-Thouless Phase
    Transition, Phys. Rev. E59 (1999) R1351, Rapid Comm..

7.  L. Schuelke and B. Zheng, Dynamic Approach to Weak First Order Phase Transitions,
Phys. Rev. E62 (2000) 7482.

8.  B. Zheng and S. Trimper, Comment on Universal Fluctuations in Correlated Systems,
Phys. Rev. Lett. 87 (2001) 188901.

9.  B. Zheng, T. Qiu and F. Ren, Two-phase phenomena, Minority Games and herding models,
Phys. Rev. E69 (2004) 046115.

10. T. Qiu, B. Zheng, F. Ren and S. Trimper, Return-volatility correlation in financial dynamics, Phys. Rev. E73 (2006) 065103(R), Rapid Comm..

11. S.Z. Lin, B. Zheng and S. Trimper, Computer simulations of two-dimensional melting with dipole-dipole interactions, Phys. Rev. E73 (2006) 066106.

12. X.W. Lei and B. Zheng, Short-time critical dynamics and aging phenomena in the two-dimensional XY model, Phys. Rev. E75 (2007) 040104(R), Rapid. Comm..  

13. J. Shen and B. Zheng, Cross-correlation in financial dynamics, EPL 86 (2009) 48005. 

14. N.J. Zhou, B. Zheng, and Y.Y. He, Short-time domain-wall dynamics in the random-field Ising model with a driving field, Phys. Rev. B80 (2009) 134425.

15. T. Qiu, B. Zheng, and G. Chen, Financial network with static and dynamic thresholds,
New J. Phys. 12 (2010) 043057.

 

16. N.J. Zhou, B. Zheng, and D.P. Landau, Modeling relaxation-to-creep transition of domain-wall motion in ultrathin ferromagnetic and ferroelectric films, EPL 92 (2010) 36001.

 

17. X.F. Jiang and B. Zheng, Anti-correlation and subsector structure in financial systems,
EPL 97 (2012) 48006.

 

18. J.J. Chen, B. Zheng, L. Tan, Agent-based model with asymmetric trading and herding for complex financial systems, PloS One 8 (2013) e79531.

 

19. X.F. Jiang, T.T. Chen, and B. Zheng, Structure of local interactions in complex financial dynamics, Sci. Rep. 4 (2014) 5321.

 

20. J.J. Chen, B. Zheng and L. Tan, Agent-based model with multi-level herding in complex financial dynamics, Sci. Rep. 5 (2015) 8399.

 

21. L. Tan, B. Zheng, J.J. Chen and X.F. Jiang, How volatilities nonlocal in time control the price movement in complex financial systems, Plos One 10 (2015) e0118399.

 

22. Y.Y. He, B. Zheng and N.J. Zhou, Dynamic effects of quenched disorder on domain wall motion

    in magnetic nanowires, Phys. Rev. B94 (2016) 134302.