-
The experimental demonstration of polarization-independent reflection structure that consists of two magneto-optical crystals and two mirrors is reported. According to the characteristics of polarization compensation, the reflection structure was simplified in this paper. A single magneto-optical crystal and two mirrors reflection structure is presented to simplify the polarization-independent reflection structure. The experiment shows that the degrees of polarization maintenance of the two reflection structures are both higher than 99.97%. By way of contrast, the polarization states of 90° reflection laser of single mirror and two mirrors are measured. Under these conditions, the degrees of polarization maintenance of mirrors are 92.1% and 76.2%, respectively.
[1] Yan H, Guifang L 2005 Opt. Express 13 2761
[2] Guo Z, Wen G Q, Zhang H X, Chen X W, Liu T G 2012 Infrared and Laser Engineering 41 54 [郭振武, 温国, 张红, 陈信, 刘铁根 2012 红外与激光工程 41 54]
[3] Rodler H, Ebberg A, Gaukel G, Noll B, Wittmann J, Auracher F 1991 J. Lightwave Technol. 9 10
[4] Ursin R, Tiefenbacher F, Schmitt M T, Weier H, Scheidl T, Lindenthal M, Blauensteiner B, Jennewein T, Perdigues J, Trojek P, Ömer B, Frst M, Meyenburg M, Rarity J, Sodnik Z, Barbieri C, Weinfurter H, Zeilinger A 2007 Nat. Phys. 3 481
[5] Schmitt M T, Weier H, Fuerst M, Ursin R, Tiefenbacher F, Scheidl T, Perdigues J, Sodnik Z, Kurtsiefer C, Rarity J G, Zeilinger A, Weinfurter H 2007 Phys. Rev. Lett. 98 010504
[6] Zhao G H, Zhao S H, Yao Z S, Meng W, Wang X, Zhu Z H, Liu F 2012 Acta Phys. Sin. 61 240306 (in Chinese) [赵顾颢, 赵尚弘, 幺周石, 蒙文, 王翔, 朱子行, 刘丰 2012 61 240306]
[7] Chen J, Li Y, Wu G, Zeng H P 2007 Acta Phys. Sin. 56 5243 [陈杰, 黎遥, 吴光, 曾和平 2007 56 5243]
[8] Renny F, Carl L, Robert W, Josef W, David K, John J, Brian H, Gerd M, Wayne S, Uwe S, Ralph K, Rolf M 2010 IEEE T. Geosci. Remote. 48 2
[9] Macleod H A 2002 Thin-film Optical Filters (3rd Edn.) (London: institute of Physics Publishing) p368
[10] Xiucai G, Weiquan F, Huiming Z, Lipo Y, Shupeng L, Tengfei M 2011 Spacecraft Environment Engineering 28 332
[11] Zhao G H, Zhao S H, Yao Z S, Meng W, Wang X, Zhu Z H, Liu F 2012 Chinese Journal of Lasers 39 1018001 [赵顾颢, 赵尚弘, 幺周石, 蒙文, 王翔, 朱子行, 刘丰 2012 中国激光 39 1018001]
-
[1] Yan H, Guifang L 2005 Opt. Express 13 2761
[2] Guo Z, Wen G Q, Zhang H X, Chen X W, Liu T G 2012 Infrared and Laser Engineering 41 54 [郭振武, 温国, 张红, 陈信, 刘铁根 2012 红外与激光工程 41 54]
[3] Rodler H, Ebberg A, Gaukel G, Noll B, Wittmann J, Auracher F 1991 J. Lightwave Technol. 9 10
[4] Ursin R, Tiefenbacher F, Schmitt M T, Weier H, Scheidl T, Lindenthal M, Blauensteiner B, Jennewein T, Perdigues J, Trojek P, Ömer B, Frst M, Meyenburg M, Rarity J, Sodnik Z, Barbieri C, Weinfurter H, Zeilinger A 2007 Nat. Phys. 3 481
[5] Schmitt M T, Weier H, Fuerst M, Ursin R, Tiefenbacher F, Scheidl T, Perdigues J, Sodnik Z, Kurtsiefer C, Rarity J G, Zeilinger A, Weinfurter H 2007 Phys. Rev. Lett. 98 010504
[6] Zhao G H, Zhao S H, Yao Z S, Meng W, Wang X, Zhu Z H, Liu F 2012 Acta Phys. Sin. 61 240306 (in Chinese) [赵顾颢, 赵尚弘, 幺周石, 蒙文, 王翔, 朱子行, 刘丰 2012 61 240306]
[7] Chen J, Li Y, Wu G, Zeng H P 2007 Acta Phys. Sin. 56 5243 [陈杰, 黎遥, 吴光, 曾和平 2007 56 5243]
[8] Renny F, Carl L, Robert W, Josef W, David K, John J, Brian H, Gerd M, Wayne S, Uwe S, Ralph K, Rolf M 2010 IEEE T. Geosci. Remote. 48 2
[9] Macleod H A 2002 Thin-film Optical Filters (3rd Edn.) (London: institute of Physics Publishing) p368
[10] Xiucai G, Weiquan F, Huiming Z, Lipo Y, Shupeng L, Tengfei M 2011 Spacecraft Environment Engineering 28 332
[11] Zhao G H, Zhao S H, Yao Z S, Meng W, Wang X, Zhu Z H, Liu F 2012 Chinese Journal of Lasers 39 1018001 [赵顾颢, 赵尚弘, 幺周石, 蒙文, 王翔, 朱子行, 刘丰 2012 中国激光 39 1018001]
Catalog
Metrics
- Abstract views: 5921
- PDF Downloads: 553
- Cited By: 0