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Tao Huang

Tao Huang

Welcome to Tao Huang's Home Page

About Me

I'm Tao Huang (黄韬), a Ph.D. of Science. I got my degree in 2020, at the Institute of Theoretical Physics, Lanzhou University, China.

If you want to contact me, please mail to taohonker@gmail.com, or follow me at ResearchGate.

Research Interests

My research interests are mainly in the fields of statistical physics and soft matter physics. I am good at molecular simulation and have rich scientific programming experience.

I currently focus on the study of solid-solid phase transitions of the anisotropic systems and the resulting changes in system properties.

Academic Activities

  • 2020-2022, Postdoctoral Fellow at Kunming University of Science and Technology, China
  • 2015-2020, visiting the Center of Soft Matter Physics and Its Applications, Beihang University, China
  • 2014-2015, visiting the Complex Systems Division at Computational Science Research Center, Beijing, China

Education

  • 2011-2019, Ph.D. in School of Physical Science and Technology, Lanzhou University, China Advisor: Prof. Yong Chen Thesis: A Molecular Dynamics Study on Phase Transitions and Structures of Patchy Particles
  • 2005-2010, B.S. in Physics, Sun Yat-sen University, China

Publications

  1. Xu, G., Huang, T., Han, Y., and Chen, Y. (2022). Morphologies and dynamics of free surfaces of crystals composed of active particles. Soft Matter.
  2. Luo, Y., Zeng, C., Huang, T., and Ai, B.-Q. (2022). Anomalous transport tuned through stochastic resetting in the rugged energy landscape of a chaotic system with roughness. Phys. Rev. E 106, 034208.
  3. Huang, T., Zeng, C., and Chen, Y. (2022). Collective diffusion in a two-dimensional liquid composed of Janus particles. Commun. Theor. Phys. 74, 105602.
  4. Huang, T., Zeng, C., Wang, H., Chen, Y., and Han, Y. (2022). Internal-stress-induced solid-solid transition involving orientational domains of anisotropic particles. Phys. Rev. E 106, 014612.
  5. Zhang, J., Huang, T., Xu, G., and Chen, Y. (2022). Density fluctuations of two-dimensional active-passive mixtures. Commun. Theor. Phys. 74, 075601.
  6. Fang, Y., Luo, Y., Huang, T., and Zeng, C. (2022). Ratchet effect of interacting active particles induced by cross-correlated noises. Eur. Phys. J. B 95, 77.
  7. Xu, G., Huang, T., Han, Y., and Chen, Y. (2021). Morphologies and dynamics of the interfaces between active and passive phases. Soft Matter 17, 9607–9615.
  8. Huang, T., Han, Y., and Chen, Y. (2020). Melting and solid–solid transitions of two-dimensional crystals composed of Janus spheres. Soft Matter 16, 3015–3021.
  9. Niu, Z.-X., Huang, T., and Chen, Y. (2018). Molecular dynamics study of nanodroplet diffusion on smooth solid surfaces. Front. Phys. 13, 137804.
  10. Sun, Y.-J., Huang, T., Zhao, J.-F., and Chen, Y. (2016). Evaporation of a nanodroplet on a rough substrate. Front. Phys. 12, 126401.

Scientific Fiction

I'm seriously worried about AI, especially when they are implemented with quantum stochastical devices. I believe the intelligence of human beings is driven by and thus limited by the thermal noise of biological systems. It takes millions of years for the earth to get the point that you can understand this sentence. However, just think how slow we are compared to the machines we make, and how big a Hilbert space can be compared to the phase space of our classical and thermal brain! We can't imagine how fast it will be that a quantum AI beat over us human beings in intelligence. A year? A day? Or the minute it's powered on? More Ironically, you won't know if it's a REAL AI unless you power it on!

(Last updated: Dec. 14, 2022)

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