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A new collimator array based on single collimating lens and fiber array is proposed in the paper. An in-depth study is conducted on the two realizing methods, one is with glue in the optical path and the other is without glue in the optical path. Based on Gauss optics transmission matrix and q parameter theory, the relationship among the variables is deduced and computed theoretically, simulated virtually and confirmed experimentally. Good agreement between theoretical results and simulation, experimental results is obtained. The mechanical and packaging designs of the two realizing methods are first studied, then the proposed collimator arrays, with good performance are made. Both the theoretical and experimental results show that the scheme has the merits of easy-to-make, low cost, easy-to-package, good performance, good scalability, etc., which can strongly support the development of reconfigurable optical add-drop multiplexer system and optical cross-connect system.
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Keywords:
- collimating lens /
- collimating lens /
- agile optical network
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[14] Kikuchi J, Mizushima Y, Takahashi H, Takeuchi Y 2002 U.S. Patent US20020097956A1
[15] Yuan S F, Riza N A 1999 Appl. Opt. 38 3214
[16] Gao H W, Zhang C M, Zhao B C 2011 Optik 122 2110
[17] Zhang C M, Wu Q M, Mu T K 2011 Appl. Opt. 50
[18] Gao H W, Zhang C M 2011 Proceedings of SPIE Orlando, Fl, USA April 25-26, 2011 p8032
[19] Zhang C M, Zhao B C, Xiangli B 2003 Opt. Commun. 227 221
[20] Zhang C M, Xiangli B, Zhao B C 2002 Opt. Commun. 203 21
[21] Zhou B K, Gao Y Z, Chen C R, Chen J H 2009 Laser Principle (Beijing: National Defence Industry Press) p91 (in Chinese) [周炳琨, 高以智, 陈倜嵘, 陈家骅 2009 激光原理 (北京: 国防工业出版社) 第91页]
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[1] Feuer M D, Kilper D C, Woodward S L 2008 Optical Fiber Telecommunications VB: Systems and Network (Amsterdam: Elservier Inc.) p293
[2] Eldada L, Fujita J, Radojevic A 2006 Proceedings of the 31th OFC/NFOEC California USA March 5-10 2006 p4
[3] Kaman V, Yuan S, Jerphagnon O 2006 Proceedings of Photonics in Switching Conference San Diego CA USA October 16-18 2006 p1
[4] Hu Q G, Liu D M, Sun L P 2008 Proceedings of SPIE 2008 International Conference on Optical Instruments and Technology Beijing China November 16-19 2008 p7136
[5] Mala M, Miller J M, McKinnon G 2005 U.S. Patent US6934439
[6] Darvish G, Moravvej-Farshi M K, Zarifkar A, Saghafi K 2008 Appl. Opt. 47 5140
[7] Li W, Liu D M, Yang C Y 2006 Chinese J. Lasers 33 351 (in Chinese) [李蔚, 刘德明, 杨春勇 2006 中国激光 33 351]
[8] Xiao F, Juswardy B, Alameh K, Lee Y 2008 Opt. Express 16 11703
[9] Pei L, Ning T G, Li T J, Dong X W, Jian S S 2004 Acta Phys. Sin. 54 1630 (in Chinese) [裴丽, 宁提纲, 李唐军, 董小伟, 简水生 2004 54 1630]
[10] Zhang J Z, Wang A B, Wang Y C 2008 Acta Phys. Sin. 58 3793 (in Chinese) [张建忠, 王安帮, 王云才 2008 58 3793]
[11] Hu Q G, Liu D M, Zhang D, Yuan Z L, Zhang B 2010 Acta Opt. Sin. 30 1168 (in Chinese) [胡强高, 刘德明, 张玓, 袁志林, 张博 2010 光学学报 30 1168]
[12] Hu Q G, Liu D M 2010 Study on Optical Communications 4 52 (in Chinese) [胡强高, 刘德明 2010 光通信研究 4 52]
[13] Corem Y, Cohen G, Frenkel B 2008 U.S. Patent US20080030- 867A1
[14] Kikuchi J, Mizushima Y, Takahashi H, Takeuchi Y 2002 U.S. Patent US20020097956A1
[15] Yuan S F, Riza N A 1999 Appl. Opt. 38 3214
[16] Gao H W, Zhang C M, Zhao B C 2011 Optik 122 2110
[17] Zhang C M, Wu Q M, Mu T K 2011 Appl. Opt. 50
[18] Gao H W, Zhang C M 2011 Proceedings of SPIE Orlando, Fl, USA April 25-26, 2011 p8032
[19] Zhang C M, Zhao B C, Xiangli B 2003 Opt. Commun. 227 221
[20] Zhang C M, Xiangli B, Zhao B C 2002 Opt. Commun. 203 21
[21] Zhou B K, Gao Y Z, Chen C R, Chen J H 2009 Laser Principle (Beijing: National Defence Industry Press) p91 (in Chinese) [周炳琨, 高以智, 陈倜嵘, 陈家骅 2009 激光原理 (北京: 国防工业出版社) 第91页]
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