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 周云松          教授


 

所属学科

理论物理

 

研究方向

电磁场理论

 

招生方向

理论物理、光学

 

联系方式

263zys@263.net

 

 

 

 

 

 

个人简介

   

  周云松,物理系教授,博士生导师。曾在中国人民解放军海军服役三年。退伍后分别在兰州大学、北京大学、中国原子能院获得学士硕士和博士学位。1997年在美国纽约州立大学布法罗校区做访问学者。曾解出中子散射Darwin方程的Delta函数二维解析解,从而原则上彻底解决了中子在嵌镶晶体中散射分布的计算问题;将统计物理中计算临界点的变分累积展开(VCE)法推广到低温和高温区,可用来计算系统的热力学量;揭示了金属超透镜的成像机制(零折射理论);还从事过超导理论、光子晶体理论和超材料理论研究。发表包括PRL、PRA、PRB、PRE、EPL、OE等国际著名期刊在内的SCI论文120余篇。

   

研究方向

   

  电磁场理论

   

主讲课程

   

  量子力学、磁性量子理论(研),电磁场理论专题(研)。还曾主讲过统计物理,量子统计(研),电动力学(部分),数据结构等课程。

   

教学成果

   

  桃李虽未满天下,弟子三千落京华。潜心耕读无旁骛,弦歌声起映晚霞。

   

科研成果

   

  发表SCI论文一百二十余篇。部分第一者和通信作者文章如下

  1. Yunsong Zhou, et al, “Multiple Bragg scattering in a slab of crystals” in《Theoretical Physics 2001》Chapter 1,p1-19, Nova Science Publishers, Inc, New York (2002) (this book is the volume 238 of 《Horizons in World Physics》)

  2. Yunsong Zhou, Jinchang Chen, Zheng Rong, D. L. Lin, Phys. Lett. A 298 (2002) 287-292 “Effects of interlayer coupling in a magnetic trilayer system”

  3. Yun-Song Zhou, Ben-Yuan Gu, Fu-He Wang, J. Phys.: Condens. Matter 15 (25 June 2003) 4109-4118 “Guide modes in photonic crystal heterostructures composed of rotating non-circular air cylinders in two-dimensional lattices”

  4. Yun-Song Zhou, Ben-Yuan Gu,and Fu-He Wang,Eur. Phys. J. B 37, 293-299 (2004) “Photonic-band-gap structures and guide modes in two-dimensional magnetic photonic crystal heterostructures”

  5. Yun-Song Zhou, Xue-Hua Wang, Ben-Yuan Gu, and Fu-He Wang  Phys. Rev. E 72 (2005)017601. “photonic band gap effects on spontaneous emission lifetimes of an assembly of atoms in two-dimensional photonic crystals”

  6Yun-Song Zhou, Xue-Hua Wang, Ben-Yuan Gu, and Fu-He Wang, Phys. Rev. Lett. 96 2006)103601. “Switching control of spontaneous emission by polarized atoms in two-dimensional photonic crystals”

  7. Yun-Song Zhou, Ben-Yuan Gu, Fu-He Wang, EPL 75 (2006) 737, “Ferromagnetic wire lattice with a tunable negative index of refraction for microwaves using an external magnetic field”

  8. Yun-Song Zhou, Ben-Yuan Gu, Sheng Lan, and Li-Ming Zhao,Phys. Rev. B 78, (2008) 081404(R). “Time-domain analysis of mechanism of plasmon-assisted extraordinary optical transmission”

  9. Yun-Song Zhou, Ben-Yuan Gu, Huai-Yu Wang, Sheng Lan, EPL, 85, 24005 (2009). “Multi-reflection processes of extraordinary optical transmission in a single subwavelength slit cut into a metallic film”

  10. Chao Li, Yun-Song Zhou, Fu-He Wang,J. Opt. Soc. Am. B 26 (2009)2248. “Characteristics of spontaneous emission in confined one-dimensional photonic crystals”

  11. Yun-Song Zhou, Ben-Yuan Gu, and Huai-Yu Wang Phys. Rev. A 81, (2010) 015801. “Band-gap structures of surface-plasmon polaritons in a subwavelength metal slit filled with periodic dielectrics”

  12. Chao Li, Yun-Song Zhou, Huai-Yu WangJ. Opt. Soc. Am. B 27 (2010)59.  “Wavelength squeeze of surface plasmon polariton in a subwavelength metal slit”

  13. Yun-Song Zhou, Ben-Yuan Gu, Huai-Yu Wang, and Li-Ming Zhao,Phys. Rev. A 81, 035803 (2010) “Enhancement of the extraordinary optical transmission in a subwavelength metal slit dressed by a metal grating”

  14. Qian Zhao, Chao Li, Yun-Song Zhou, and Huai-Yu Wang,J. Phys.: Condens. Matter 23 (2011) 015005 (9pp). “The mechanism of the polarization dependence of the optical transmission in subwavelength metal hole arrays”

  15. Yun-Song Zhou, Huai-Yu Wang, Li-Ming Zhao, Sheng Lan, Phys. Rev. A 83 (2011) 035805. “Enhancement of the contrast ratio associated with surface waves in a metal pillar-slit structure”

  16. Chao Li,. Yun-Song Zhou, Huai-Yu Wang, and Fu-He Wang,Opt. Express, 19, 10073 (2011). “Investigation of the wave behaviors inside a step-modulated subwavelength metal slit”

  17. C. Li, Y. S. Zhou, and H.Y. Wang, Eur. Phys. J. D (2012) 66: 9. “Scattering mechanism in a step-modulated subwavelength metal slit: a multi-mode multi-reflection analysis”

  18. Chao Li, Yun-Song Zhou, and Huai-Yu Wang,Opt. Express,20 (2012)7726. “Plasmonic band structures and optical properties of subwavelength metal/dielectric/metal Bragg waveguides”

  19. Yun-Song Zhou, Huai-Yu Wang and Hai Wang,EPL, 98 (2012) 67005, “Zero refraction in natural materials and the mechanism of metal superlens”

  20. Chen Zhao, Yun-Song Zhou, Huai-Yu Wang, Hai Wang, Li-Ming Zhao,Opt. Comm. 316 (2014) 17–21. “Mechanism of the optical unidirectional transmission in metal subwavelength grating with different surfaces$”

  21. Ming-Yang Wang, Yun-Song Zhou, Huai-Yu Wang,Opt. Comm. 322 (2014) 198–201. “An optical unidirectional device tunable by a magnetic .field”

  22. Yun-Song Zhou, Pei-Jie Wang, Hai Wang, Sheng-Fei Feng, EPL, 107 (2014) 54005. “Fano resonance generated by magnetic scatterer in micro metal slit”

  23. Yun-Song Zhou, Li-Ming Zhao, Sheng Lan and Hai Wang, EPL, 109 (2015) 54003. “An optical one-way device constructed with an epsilon-near-zero prism inserted in a metal slit”

  24. Yun-Song Zhou, Hai Wang, Li-Ming Zhao and Huai-Yu Wang,Eur. Phys. J. D, 69 (2015) 201 . “Optical unidirectional transmission in metal slit structures caused by convergent and shield effects”

  25. Chen Zhao, Yun-Song Zhou, Yan Zhang, Huai-Yu Wang, Opt. Comm.368 (2016) 180–184. “The imaging properties of the metal superlens”

  26. Yan Zhao, Yun-Song Zhou(通信), Li-Ming Zhao, Huai-Yu Wang, Opt. Comm.381 (2016) 195–199. “The optical one-way transmission in helical metal subwavelength slit”

  27. Qi Gao, Yun-Song Zhou, Hua Gao, and Huai-Yu Wang  AIP Advances, 6, 105209 (2016). “Composite one-way transmission waveguide based on the curved metal slit and 1D photonic crystal”

  28. H. Gao, Y. S. Zhou, Z. Y. Zheng, S. J. Chen, J. J. Dong, Appl. Phys. B 123 (2017)165. “Is the photonic crystal with a Dirac cone at its Г point a real zero-index material?”

  29. Chen Zhao,Yun-Song Zhou, Qi Gao,Yan Zhang, Opt. Comm. 407(2018)41–45 “The imaging properties of thecurved superlens” (www.elsevier.com/locate/optcom)


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