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The present paper utilizes the Green function method to analyze the scattering properties of the metal wire grating in the THz band, and further to study the influence of the diffraction on the transfer characteristic of the metal wire grating. Results prove that the transmission amplitude of the incident electromagnetic wave is increasing monotonously with the enlargement of the value of a/, and it arrives at the maximum in the zero-order diffraction limit. Due to the strengthened effect of diffraction, transmission curves of the incident electromagnetic wave show oscillation in the critical frequency transition region. Due to the diffraction effect, the transmission amplitude of the incident electromagnetic wave demonstrates an overall decline in the diffraction zone, and it is decreasing monotonously with the enlargement in the value of a/. Compared with microwave transmission line method, this method can aliminate the restriction that the wavelength of the incident electromagnetic wave must be greater than the wire grating constant, and the thickness of wire grating must be far less than the metal line width. This method could be used to analyze the distribution of the electromagnetic properties of the system accurately; and it will be a generally suitable one.
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Keywords:
- metal wire grating /
- THz wave /
- scattering /
- Greens function method
[1] Marcuvitz N 1951 Waveguide Handbook (New York: McGraw-Hill Ed.) pp280-285
[2] Ulrich R, Bridges T J, Pollack M A 1970 Appl. Optics. 9 2511
[3] Compton R C, Whitbourn L B, McPhedran R C 1984 Appl. Optics. 23 3236
[4] Durschlag M S, DeTemple T A 1981 Appl. Optics. 2 1245
[5] Feng X G, Fang L, Sun L C 2005 Opt. Precision Eng. 13 59 (in Chinese) [冯晓国, 方梁, 孙连春 2005 光学精密工程 13 59]
[6] Gao X, Guo Q L, Tong X D 1992 Infrared Tech. 16 27 (in Chinese) [高翔, 郭其良, 童兴德 1992 红外技术 16 27]
[7] Cao T L, Yao J Q 2008 Mod. Sci. Instr. 2 36 (in Chinese) [曹铁岭, 姚建铨 2008 现代科学仪器 2 36]
[8] Geng L J 2009 MS Thesis (Harbin: Harbin Institute of Technology) (in Chinese) [耿利杰 2009 硕士学位论文 (哈尔滨: 哈尔滨工业大学)]
[9] Jiang C Y, Cai R, Liu J S, Wang K J, Wang S L 2012 Acta Optica Sinica 32 1 (in Chinese) [蒋呈阅, 蔡瑞, 刘劲松, 王可嘉, 王盛烈 2012 光学学报 32 1]
[10] Liu L M, Zhao G Z, Zhang G H, Wei B, Zhang S B 2012 Chinese J. Lasers 39 1 (in Chinese) [刘立明, 赵国忠, 张杲辉, 魏波, 张盛博 2012 中国激光 39 1]
[11] Li F F, Li D, Shu S W, Ma G H, Ge J, Hu S H, Dai N 2010 J. Infrared Millm. W. 29 452 (in Chinese) [栗芳芳, 李栋, 舒时伟, 马国宏, 葛进, 胡淑红, 戴宁 2010 红外与毫米波学报 29 452]
[12] Kang G G, Tan Q F, Chen W L, Li Q Q, Jin W Q, Jin G F 2011 Acta Phys. Sin. 60 014218 (in Chinese) [康果果, 谭峤峰, 陈伟力, 李群庆, 金伟其, 金国藩 2011 物理学报 60 014218]
[13] Gradshteyn I S, Ryzhik I M 1965 Table of Integrals, Series, and Products (London: Reed Elsevier) pp769-941
[14] Bayanheshig, Zhu H C 2007 Acta Phys. Sin. 56 3893 (in Chinese) [巴音贺希格, 朱洪春 2007 物理学报 56 3893]
[15] Chen H, Sun Y M, Wang L 2009 Chin. Phys. B 18 4287
[16] Jackson J D 1962 Classical Electrodynamics (New York: Wiley) pp14-305
[17] Gonis A, William H B 2000 Multiple scattering in solids (New York: Springer-Verlag New York Inc.) pp6-121
[18] Ham F S, Segall B 1961 Phys. Rev. 124 1786
[19] Chambers W G, Mok C L, Parker T J 1980 J. Phys. A Math. Gen. 13 1433
[20] Chambers W G, Mok C L, Parker T J 1980 J. Phys. D Appl. Phys. 13 515
[21] Abramowitz M, Stegun I A 1965 Handbook of Mathematical Functions (New York: Dover Publications Inc.) pp355-479
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[1] Marcuvitz N 1951 Waveguide Handbook (New York: McGraw-Hill Ed.) pp280-285
[2] Ulrich R, Bridges T J, Pollack M A 1970 Appl. Optics. 9 2511
[3] Compton R C, Whitbourn L B, McPhedran R C 1984 Appl. Optics. 23 3236
[4] Durschlag M S, DeTemple T A 1981 Appl. Optics. 2 1245
[5] Feng X G, Fang L, Sun L C 2005 Opt. Precision Eng. 13 59 (in Chinese) [冯晓国, 方梁, 孙连春 2005 光学精密工程 13 59]
[6] Gao X, Guo Q L, Tong X D 1992 Infrared Tech. 16 27 (in Chinese) [高翔, 郭其良, 童兴德 1992 红外技术 16 27]
[7] Cao T L, Yao J Q 2008 Mod. Sci. Instr. 2 36 (in Chinese) [曹铁岭, 姚建铨 2008 现代科学仪器 2 36]
[8] Geng L J 2009 MS Thesis (Harbin: Harbin Institute of Technology) (in Chinese) [耿利杰 2009 硕士学位论文 (哈尔滨: 哈尔滨工业大学)]
[9] Jiang C Y, Cai R, Liu J S, Wang K J, Wang S L 2012 Acta Optica Sinica 32 1 (in Chinese) [蒋呈阅, 蔡瑞, 刘劲松, 王可嘉, 王盛烈 2012 光学学报 32 1]
[10] Liu L M, Zhao G Z, Zhang G H, Wei B, Zhang S B 2012 Chinese J. Lasers 39 1 (in Chinese) [刘立明, 赵国忠, 张杲辉, 魏波, 张盛博 2012 中国激光 39 1]
[11] Li F F, Li D, Shu S W, Ma G H, Ge J, Hu S H, Dai N 2010 J. Infrared Millm. W. 29 452 (in Chinese) [栗芳芳, 李栋, 舒时伟, 马国宏, 葛进, 胡淑红, 戴宁 2010 红外与毫米波学报 29 452]
[12] Kang G G, Tan Q F, Chen W L, Li Q Q, Jin W Q, Jin G F 2011 Acta Phys. Sin. 60 014218 (in Chinese) [康果果, 谭峤峰, 陈伟力, 李群庆, 金伟其, 金国藩 2011 物理学报 60 014218]
[13] Gradshteyn I S, Ryzhik I M 1965 Table of Integrals, Series, and Products (London: Reed Elsevier) pp769-941
[14] Bayanheshig, Zhu H C 2007 Acta Phys. Sin. 56 3893 (in Chinese) [巴音贺希格, 朱洪春 2007 物理学报 56 3893]
[15] Chen H, Sun Y M, Wang L 2009 Chin. Phys. B 18 4287
[16] Jackson J D 1962 Classical Electrodynamics (New York: Wiley) pp14-305
[17] Gonis A, William H B 2000 Multiple scattering in solids (New York: Springer-Verlag New York Inc.) pp6-121
[18] Ham F S, Segall B 1961 Phys. Rev. 124 1786
[19] Chambers W G, Mok C L, Parker T J 1980 J. Phys. A Math. Gen. 13 1433
[20] Chambers W G, Mok C L, Parker T J 1980 J. Phys. D Appl. Phys. 13 515
[21] Abramowitz M, Stegun I A 1965 Handbook of Mathematical Functions (New York: Dover Publications Inc.) pp355-479
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