2013年研究成果汇总

期刊论文

[1] Y. Dai, S.-B. Liu, X.-k. Kong, S.-y. Wang, and B. Ma, "Modulation of high-order harmonic waves using nonlinear plasma photonic crystal and defective photonic crystal," Optics & Laser Technology, vol. 48, pp. 178-181, 2013.(SCI IF:1.5)

[2] C. Chen, S.-B. Liu, S.-Y. Wang, X.-K. Kong, B.-R. Bian, and Y. Dai, "A Shifted Waveguide Connector Combined with a Photonic Crystal Filter Designed by Transformation Optics," Optics & Laser Technology, vol. 49, pp. 161-165, 2013. (SCI IF:1.5)

[3] B. Bian, S. Liu, S. Wang, X. Kong, Y. Guo, X. Zhao, et al., "Cylindrical optimized nonmagnetic concentrator with minimized scattering," Optics Express, vol. 21, pp. A231-A240, 2013. (SCI IF:3.59)

[4]  X. K. Kong, S. B. Liu, H. F. Zhang, L. Zhou, Y. Fan, C. Z. Li, et al., "Analysis of Tunable Absolute Band Gaps in 2-D Honeycomb Lattice Plasma Photonic Crystals," Ieee Transactions on Plasma Science, vol. 41, pp. 243-249, Jan 2013.(SCI IF:1.17)

[5]  X. K. Kong, S. B. Liu, H. F. Zhang, S. Y. Wang, B. R. Bian, and Y. Dai, "Tunable Bistability in Photonic Multilayers Doped by Unmagnetized Plasma and Coupled Nonlinear Defects," Selected Topics in Quantum Electronics, IEEE Journal of, vol. 19, pp. 8401407-8401407, 2013., pp. 243-249, Jan 2013.(SCI IF:3.78)

[6] Zhang H. F., S. B. Liu, Y. Chen, “Properties of Photonic Band Gaps in Superconductor Multilayer Structure with Periodically Varying Ambient Temperature” J. Supercond. Nov. Magn, 2013 (SCI IF:0.67).

[7]  Zhang H. F., S. B. Liu, X. K. Kong, “Enlarged the omnidirectional band gap in one-dimensional plasma photonic crystals with ternary Thue-Morse aperiodic structure,” Physica B, 2013, Vol. 410: 244. (SCI IF:1.096).

[8] Zhang H. F., S. B. Liu, X. K. Kong, Chen-Chen, Bo-Rui Bian, “The characteristics of photonic band gaps for three-dimensional unmagnetized dielectric plasma photonic crystals with simple-cubic lattice,” Optics Communications, 2013,Vol.288: 82. (SCI IF:1.69).

[9] H. F.Zhang S. B. Liu, X. K. Kong, B. R. Bian and Ben Ma, “Enhancement of Omnidirectional photonic bandgaps in one-dimensioanl Superconductor-Dielectric photonic crystals with a Staggered structure,” J. Supercond. Nov. Magn, 2013, Vol.26: 77. (SCI IF:0.67).

[10]X.-k. Kong, S.-b. Liu, H.-f. Zhang, Y. Dai, and H. Yang, "A theoretical study of a compact and highly efficient isolator consisting of nonlinear plasma and matching metamaterials," Laser Physics, vol. 23, p. 055404, 2013. (SCI IF:3.61). [PDF]

[11]X.-k. Kong, S.-b. Liu, H.-f. Zhang, B.-r. Bian, H.-m. Li, and X. Zhao, "Evanescent wave decomposition in a novel resonator comprising unmagnetized and magnetized plasma layers," Physics of Plasmas, vol. 20, pp. 043515-6, 2013. (SCI IF:2.15). [PDF]

[12] X.-k. Kong, S.-b. Liu, H.-f. Zhang, B.-r. Bian, H.-c. Zhao, and H. Yang, "A broadband omnidirectional absorber based on a hetero-structure composed of a collision plasma and a ternary plasma Bragg mirror," Journal of Electromagnetic Waves and Applications, pp. 1-8, 2013. (SCI IF:2.97). [PDF]

[13] Hai-Feng Zhang, Shao-Bin Liu and Bing-Xiang Li, “The properties of photonic band gaps for three-dimensional tunable photonic crystals with simple-cubic lattices doped by magnetized plasma,” Optics & Laser Technology, Vol. 50, pp93-102, 2013.  (IF: 1.56)

[14] Hai-Feng Zhang, Shao-Bin Liu, Xiang-Kun Kong and Bo-Rui Bian, “The properties of photonic band gaps for three-dimensional plasma photonic crystals in a diamond structure,” Physics of Plasmas, Vol. 20, 042110, 2013. (IF: 2.48)

[15] Hai-Feng Zhang, Shao-Bin Liu, Huan Yang and Xiang-Kun Kong, “Analysis of photonic band gap in dispersive properties of tunable three-dimensional photonic crystals doped by magnetized plasma,” Physics of Plasmas, Vol. 20, pp032118-032118-15, 2013. (IF: 2.48)

[16] Hai-Feng Zhang, Shao-Bin Liu, Xiang-Kun Kong and Bing-Xiang Li, “Investigation on the dispersion of three-dimensional nomagnetized plasma photonic crystals with faced-centered-cubic lattices,” Solid State Communications, Vol. 162, pp34-42, 2013. (IF: 1.98)

[17] Hai-Feng Zhang, Jian-Ping Zhen and Wen-Ping He, “Omnidirectional photonic band gaps enhanced by Fibonacci quasiperiodic one-dimensional ternary plasma photonic crystals,” Optik-International Journal for Light and Electron Optics, 2013. (IF: 0.5)

[18] Hai-Feng Zhang, Shao-Bin Liu, Huan Yang and Hai-Ming Li, “Investigating the Omnidirectional Photonic Band Gap in One-Dimensional Superconductor–Dielectric Photonic Crystals with a Modified Ternary Fibonacci Quasiperiodic Structure,” Journal of Superconductivity and Novel Magnetism, 2013, DOI : 10.1007/s10948-013-2202-8. (IF: 0.68) 

[19] Hai-Feng Zhang, Shao-Bin Liu and Xiang-Kun Kong, “Investigating the dispersive properties of the three-dimensional photonic crystals with face-centered-cubic lattices containing epsilon-negative materials,” Applied Physics B, 2013, DOI 10.1007/s00340-013-5438-x. (IF: 2.4)

[20] Hai-Feng Zhang, Shao-Bin Liu and Xiang-Kun Kong, “Dispersion Properties of Three-dimensional Plasma Photonic Crystals in Diamond Lattice Arrangement,” IEEE J. Lightwave Technol. Vol.17, 1694 (2013). (IF: 2.8)

[21] Hai-Feng Zhang, Shao-Bin Liu and Yu-qing Chen, “Properties of Photonic Band Gaps in Superconductor Multilayer Structure with Periodically Varying Ambient Temperature,” Journal of Superconductivity and Novel Magnetism, 2013, DOI 10.1007/s10948-013-2103-x. (IF: 0.68)

[22] Zhang H F, Liu S B, Kong X K. Study of the dispersive properties of three-dimensional photonic crystals with diamond lattices containing metamaterials. Laser Physics, 2013, 23(10): 105815. (IF:3.65)

[23] Zhang H F, Liu S B, Kong X K. Investigation of Faraday effects in photonic band gap for tunable three-dimensional magnetized plasma photonic crystals containing the anisotropic material in diamond arrangement. Journal of Electromagnetic Waves and Applications, 2013, 27(14): 1776-1791. (IF:2.9)

[24] Zhang H F, Liu S, Kong X K. Properties of Anisotropic Photonic Band Gaps in Three-Dimensional Plasma Photonic Crystals Containing the Uniaxial Material with Different Lattices . Progress In Electromagnetics Research, 2013, 141: 267-289. (IF:5.2)

[25] Zhang H F, Liu S B, Kong X K. Analysis of Voigt effects in dispersive properties for tunable three-dimensional face-centered-cubic magnetized plasma photonic crystals. Journal of Electromagnetic Waves and Applications, 2013 (ahead-of-print): 1-17. (IF:2.9)

[26] Zhang H F, Liu S B, Kong X K. Investigation of anisotropic photonic band gaps in three-dimensional magnetized plasma photonic crystals containing the uniaxial material. Physics of Plasmas, 20, 092105 (2013); (IF:2.478)

[27] Zhang H F, Liu S B, Yang H. Omnidirectional Photonic Band Gap in One-Dimensional Ternary Superconductor-Dielectric Photonic Crystals Based on a New Thue–Morse Aperiodic Structure. Journal of Superconductivity and Novel Magnetism, 2013: 1-12. (IF:0.68)

[28] Zhang H F, Liu S B, Kong X K, et al. Photonic band gap of three dimensional magnetized photonic crystal with Voigt configuration. The European Physical Journal D, 2013, 67(8): 1-13. (IF:1.56)

[29] Zhang H F, Liu S B, Li B X. The Voigt effects in the anisotropic photonic band gaps of three-dimensional magnetized plasma photonic crystals doped by the uniaxial material. Optics Communications, 2013. (IF:1.45)

[30] Zhang H F, Liu S B. Enlargement of the omnidirectional photonic band gap by one-dimensional plasma-dielectric photonic crystals with fractal structure. Optical and Quantum Electronics, 2013: 1-12. (IF:1.2)

[31] Zhang H F, Liu S B, Kong X K, Enlarged the omnidirectional photonic band gap in one-dimensional ternary plasma photonic crystals based on a new Thue-Morse aperiodic structure. Solid State Communications, In pressing . (IF:1.941)

[32] 刘少斌、孔祥鲲、戴燚、卞博锐、章海锋,"电磁波在等离子体超材料中的非线性传播特性," 微波学报, vol. 29, pp. 62-75, 2013.

[33] B. Bian, S. Liu, S. Wang, X. Kong, H. Zhang, B. Ma, and H. Yang, "Novel triple-band polarization-insensitive wide-angle ultra-thin microwave metamaterial absorber," Journal of Applied Physics, 114, 1945112013.

会议论文

ICNP/AOM 2013 in HongKong

[1] X.-k. KONG, S.-b. LIU, and H.-f. Zhang et al, " Elliptically Polarized Wave Decomposition in a Novel Resonator Composed of Different Plasma" presented at the ICNP/AOM 2013, HongKong, 2013.



PIERS2013 in Stockholm

[1] Xiang-Kun Kong, Shaobin Liu, Hai Feng Zhang, Bo-Rui Bian, Hui-Chao Zhao, and Huan Yang, " Omnidirectional Absorber Based on Collision Plasma Heterostructures ", presented at the PIERS 2013, Stockholm, 2013.

[2] Huan Yang, Shaobin Liu, Xiang-Kun Kong, Hui-Chao Zhao, and Bo-Rui Bian, “A Triple-mode Passband Filter with Improved Upper-stopband Performance”, presented at the PIERS 2013, Stockholm, 2013.

[3] Yi Dai, Shaobin Liu, Xiang-Kun Kong, Hai Feng Zhang, Hui-Chao Zhao, and Chen Chen, “Frequency Multiplier Based on Nonlinear Defective Photonic Crystal”, presented at the PIERS 2013, Stockholm, 2013.

[4] Hai-Feng Zhang, Wen-Ping He, Shao-Bin Liu, and Yu-Qing Chen, “The Dispersive Properties of the Three-dimensional PhotonicCrystals with Diamond Lattices Containing the Epsilon-negativeMaterials”, presented at the PIERS 2013, Stockholm, 2013.

[5] Bo-Rui Bian, Shao-Bin Liu, Hai-Feng Zhang, Bin-Xiang Li, and Ben Ma, “A New Triple-band Polarization-insensitive Wide-angle Microwave Metamaterial Absorber”, presented at the PIERS 2013, Stockholm, 2013.

  

ISAP2013 in Nanjing

[1] Hai-Feng zhang, Shao-Bin Liu, Huan Yang,"Anisotropic Photonic Band Gaps in Three-dimensional Magnetized Plasma Photonic Crystals", presented at the ISAP 2013, Nanjing, 2013. 

[2] Jian Lin Yuan , Shao-Bin Liu, xiangkun Kong, Huan Yang, "A reconfigure frequency selective surface for tuning multi-freequency response separately”, presented at the ISAP 2013, Nanjing, 2013.

[3] Hui-chao ZhaoShao-bin LiuHuan YangBei-yin Wang,“Design and Research on the Plasma Yagi Antenna”presented at the ISAP 2013, Nanjing, 2013.

专利申请

1、一种冷等离子体农药降解仪,申请号:201310620286.9,发明人:刘少斌 杨化 余志洋 赵会超 李海明 许莙翊 

2、一种便携式低温等离子体杀菌、美容设备,申请号:201310620946.3,发明人:刘少斌 赵会超 李海明

3、一体化浮动电极等离子体美容仪,申请号:201310620623.4,发明人:刘少斌 杨化 李海明 赵会超 余志洋

4、一体化微放电冷等离子体美容仪,申请号:201310620599.4,发明人:刘少斌 余志洋 李海明 杨化 赵会超