基本情况

王向荣,香港科技大学物理系,终身教授。

 

教育背景

1990 博士,罗切斯特大学,美国

1986 硕士,罗切斯特大学,美国

1984 学士,武汉大学

 

研究领域

量子霍尔效应、二维电子气量子输运、超晶格以及量子纠缠与量子计算

 

论文发表


  1. “Magnetization reversal of Stoner particles”, X. R. Wang and Z.Z. Sun, Wuli 35, 469 (2006)
  2. “Theoretical limit of the minimal magnetization switching field and the optimal field pulse for Stoner particles”, Z.Z. Sun and X.R. Wang, Phys. Rev. Lett. 97, No. 077205 (2006).13 Selected for Virtual Journal of Nanoscale Science & Technology
  3. “Magnetization reversal through synchronization with a microwave”, Z.Z. Sun and X.R. Wang, Phys. Rev. B 74, 132401 (2006); cond-mat/0604013
  4. “Quantum phase transition and entanglement in the transverse-field Ising model”, J.P. Cao, G. Xiong, Y.P. Wang and X.R. Wang, International Journals of Quantum Information 4, 705-713(2006)
  5. “Proximity and anomalous field-effect characteristics in double-wall carbon nanotubes”, Jie Lu, L. M. Peng, Sun Yin, Z. Z. Sun, and X. R. Wang, Appl. Phys. Lett. 90 052109, (2007); cond-mat/0603577; Selected for the Virtual Journal of Nanoscale Science & Technology
  6. “Theoretical limit in the magnetization reversal of Stoner particles”, X.R. Wang and Z.Z. Sun, Phys. Rev. Lett. 98, 077201 (2007); Selected for the Virtual Journal of Nanoscale Science & Technology
  7. “Microwave-assisted magnetization switching of Ni80Fe20 inmagnetic tunnel junctions”, T. Moriyama, R. Cao, J.Q. Xiao, J. Lu, X.R. Wang, Q. Wen, and H.W. Zhang, Appl. Phys. Lett. 90, 152503 (2007)
  8. “Microstructure, magnetic, and spin-dependent transport properties of (Zn,Cr)Te films fabricated by magnetron sputtering”, W.G. Wang, K.J. Yee, D.H. Kim, K.J. Han, X.R. Wang, C. Ni,T. Moriyama, A. Mathew, R. Opila, T. Zhu, and J.Q. Xiao, Phys. Rev. B 77, 155207 (2008)
  9. “A possible unified picture for both scaling and non-scaling plateau-to-plateau transitions in quantum Hall systems”, G.Xiong,S.D.Wang, Q. Niu, Y.P. Wang, and X.R. Wang, Europhysics Letters 82, 47008 (2008)
  10. “Light Emitting Diodes of Inverse Spin Valves”, X. R. Wang, Research Letters in Physics, 2008, Article ID 434936 (2008)
  11. “Euler equation of the optimal trajectory for the fastest magnetization reversal of nano-magnetic structures”, X.R. Wang P. Yan, J. Lu and C. He, Europhysics Letters 84, 27008 (2008)
  12. “Quantum blockades and loop currents in graphene with topological defects”, Y.Y. Zhang, J.P. Hu, B.A. Bernevig, X.R. Wang, X.C. Xie, and W.M. Liu, Phys. Rev. B 78, 155413 (2008). Selected for the Virtual Journal of Nanoscale Science & Technology. One figure was chossen by PRB as a feature figure in ”Kaleidoscope”
  13. “Negative differential resistance and tunable peak-to-valley ratios in a silicon nanochain”, Z.Z. Sun, X. R. Wang, R. Q. Zhang, and S. T. Lee, J. of Appl. Phys. 103, 103719 (2008)
  14. “Resonance and antiresonance effects in electronic transport through several-quantum-dot combinations”, Z.Z. Sun, R. Q. Zhang, W. Fan, and X. R. Wang, J. of Appl. Phys. 105, 043706 (2009)
  15. “Shape of disorder broadened Landau subbands in graphene”, W. Zhu, Q.W. Shi, X.R. Wang, J. Chen, J.L. Yang, and J.G. Hou, Phys. Rev. Lett. 102, 056803 (2009)
  16. “Inverse Square-Root Field Dependence of Conductivity in Organic Field-Effect Transistors”, J.H. Wei, Y. L. Gao and X.R. Wang, Appl. Phys. Lett. 94, 073301 (2009)
  17. “Magnetization reversal of single domain permalloy nanowires”, Jie Lu and X.R. Wang, Journal of Magnetism and Magnetic Materials 321, 2916 (2009)
  18. “Magnetic field driven domain wall propagation in magnetic nanowires”, X.R. Wang, P. Yan, J. Lu, and C. He, Annals of Physics 324, 1815 (2009)
  19. “High field domain wall propagation velocity in magnetic nanowires”, X.R. Wang, P. Yan, and J. Lu, Europhysiccs Letters 86, 67001 (2009)
  20. “Domain wall propagation due to the synchronization with circularly polarized microwaves”, P. Yan and X.R. Wang, Phys. Rev. B 80, 214426, (2009)
  21. “Optimal time-dependent current pattern for domain wall dynamics in nanowires”, P. Yan and X.R. Wang, Appl. Phys. Lett. 96, 162506 (2010)
  22. “Motion of transverse domain walls in thin magnetic nanostripes under transverse magnetic fields”, J. Lu and X. R. Wang, J. Appl. Phys. 107, 083915 (2010)
  23. “Ferromagnetic insulator induced by Peierls instability at orbital order transition”, J. H. Wei, D. Hou and X. R. Wang, New J. of Phys. 12, 053021 (2010)
  24. “Screw-pitch effect and velocity oscillation of a domain wall in a ferromagnetic nanowire driven by spin-polarized current”, Z. D. Li,Q. Y. Li, X. R. Wang, W. M. Liu, J. Q. Liang and G. Fu, Journal of Physics: Condensed Matter 22, 216001 (2010)
  25. “Analysis of magnetic property measurements in ultrafast magnetization dynamics”, X. R. Wang, Modern Physics Letters B 24(21), 22152224 (2010)
  26. “Comment on “Interaction-induced shift of the cyclotron resonance of graphene using infrared spectroscopy”, W. Zhu, Q. W. Shi, J. G. Hou, and X. R. Wang, Phys. Rev. Lett. 105, 159703 (2010)
  27. “Evaluation of the Green’s function of disordered graphene”, W. Zhu, Q. W. Shi, X. R. Wang, X. P. Wang J. L. Yang, J. Chen, and G. Hou, Phys. Rev. B 82, 153405 (2010); arXiv:1005.3592. Selected for Virtual Journal of Nanoscale Science & Technology
  28. “Optimal spin current pattern for fast domain wall propagation in nanowires”, P. Yan, Z. Z. Sun, J. Schliemann and X. R. Wang, Europhysiccs Letters 92, 27004 (2010)
  29. “Current-induced domain wall motion with adiabatic and nonadiabatic spin torques in magnetic nanowires”, Z. Z. Sun, P. Yan, J. Schliemann and X. R. Wang, European Physical Journal B 79, 449-453 (2011)
  30. “A theory for magnetic-field effects of nonmagnetic organic semiconducting materials”, X. R. Wang and S. J. Xie, Europhysics Letters 92, 57013 (2010)