|出生年月： November, 1975|
|办公地点： Zhizhi Bld #3521|
XGW got his PhD degree from Beijing Normal University in 2002. His PhD thesis is about measure synchronization in coupled Hamiltonian systems, carried out at the Physics Department under the supervision of Prof. Gang Hu. After graduated, he joined the Temasek Laboratories at National University of Singapore as a research scientist, collaborating with Prof. Choy Heng Lai on topics of chaos-based secure communications and complex network analysis. In 2008, he moved back to China and joined the Physics Department in Zhejiang University as professor, working on fusion plasma theory. In 2013, he joined the Physics Department of Shaanxi Normal University. His current research interest is mainly focusing on the collective dynamical behaviors of complex systems, including synchronization, pattern formation, complex networks, laser plasma, turbulence control, etc. He has published more than 70 papers in peer-reviewed journals, which, according to the record of Web of Science, have been cited about 700 times. XGW is now a “Qujiang” Professor in Shaanxi Normal University. In 2014, he received the "Shaanxi Youth Science and Technology Award" and was selected as a member of the "Shaanxi One-Hundred Talent Program".
Research ID: http://www.researcherid.com/rid/G-1746-2014.
Research Gate: https://www.researchgate.net/profile/Xingang_Wang2; Google Scholar
Nonlinear Dynamics, Complex Networks, Computational Neuroscience,
Statistical Physics, Pattern Formation, Plasma Physics, Physics Education
Publications in Recent 3 Years：(*:Corresponding author)
 Mengjiao Chen, Yafeng Wang, Hengtong Wang, Wei Ren, and Xingang Wang*, "Evoking complex neuronal networks by stimulating a single neuron", Nonlinear Dynamics (accepted). doi:10.1007/s11071-017-3391-7
 Jing Zhang, Yizhen Yu*, and Xingang Wang*, "Synchronization of coupled metronomes on two layers", Frontiers of Physics (accepted).
 Weijie Lin, Huiyan Li, Heping Ying, and Xingang Wang*, "Inducing isolated-desynchronization states in complex network of coupled chaotic oscillators", Physical Review E 94, 062303 (2016).
 H. Bi, X. Hu, S. Boccaletti, X.G. Wang, Y. Zou, Z.H. Liu, and S.G. Guan, “Coexistence of quantized, time dependent, clusters in globally coupled oscillators”, Physical Review Letters 117, 204101 (2016).
 M.J. Chen, W. Ren*, and Xingang Wang*, "Strength in a Tristable System of Coupled
Phosphatase and Kinase", Frontiers in Computational Neuroscience 10, 104 (2016).
 Lei Yang, Zhigang Deng, M.Y. Yu, and Xingang Wang*, “High-charge energetic ions generated by intersecting laser pulses”, Physics of Plasmas 23, 083106 (2016).
 Weijie Lin, Huawei Fan, Ying Wang, Heping Ying, and Xingang Wang*, “Controlling synchronous patterns in complex networks”, Physical Review E 93, 042209 (2016) (see also arXiv: 1511.00892). (Representative Paper)
 Yafeng Wang, Huawei Fan, Weijie Lin, Ying-Cheng Lai, and Xingang Wang*, “Growth, collapse, and self-organized criticality in complex networks”, Scientific Reports 6, 24445 (2016) (Link: http://www.nature.com/articles/srep24445).
 Huawei Fan, Yafeng Wang, Mengjiao Chen, and Xingang Wang*, “Chaos synchronization with dual-channel time-delayed couplings”, Science China -- Technological Sciences 59, 428 (2016). (Invited paper for the special issue ”Time Delay, Noise on Dynamical Systems”.)
 Keli Yang, Xingang Wang, and Shi-Xian Qu, “Cyclic synchronous patterns in coupled discontinuous maps,” Physical Review E 92, 022905 (2015).
 Weijie Lin, Yafeng Wang, Heping Ying, Ying-Cheng Lai, and Xingang Wang*, “Consistency between functional and structural networks of coupled nonlinear oscillators,” Physical Review E 92, 012912 (2015).
 Wenchao Yang, Weijie Lin, Xingang Wang*, and Liang Huang*, “Synchronization of networked chaotic oscillators under external periodic driving,” Physical Review E 91, 032912 (2015).
 Wenchao Yang, Zi-Gang Huang, Xingang Wang, Liang Huang, Lei Yang, and Ying-Cheng Lai, “Complex behavior of chaotic synchronization under dual coupling channels,” New Journal of Physics 17, 023055 (2015).点击量：23210