Multimode-Waveguide-Based Optical Power Splitters in Glass
GAO Yang1, GONG Zhao2, BAI Ren1, HAO Yin-Lei1, LI Xi-Hua1, JIANG Xiao-Qing1, WANG Ming-Hua1, PAN Jian-Xia3, YANG Jian-Yi1
1Department of Information Science and Electronic Engineering, Zhejiang University, Hangzhou 3100272Zhejiang University City College, Hangzhou 3100153Institute of Microelectronic CAD, Hangzhou Dianzi University, Hangzhou 310018
Multimode-Waveguide-Based Optical Power Splitters in Glass
GAO Yang1, GONG Zhao2, BAI Ren1, HAO Yin-Lei1, LI Xi-Hua1, JIANG Xiao-Qing1, WANG Ming-Hua1, PAN Jian-Xia3, YANG Jian-Yi1
1Department of Information Science and Electronic Engineering, Zhejiang University, Hangzhou 3100272Zhejiang University City College, Hangzhou 3100153Institute of Microelectronic CAD, Hangzhou Dianzi University, Hangzhou 310018
摘要Low-loss glass-based buried multimode waveguides are fabricated by using the field-assisted Ag+--Na+ ion-exchange technique, and multimode optical power splitters are investigated. The measured loss of the multimode waveguides is lower than 0.1dB/cm, and the additional loss of the multimode optical power splitters is lower than 1.3dB under the uniform splitting condition.
Abstract:Low-loss glass-based buried multimode waveguides are fabricated by using the field-assisted Ag+--Na+ ion-exchange technique, and multimode optical power splitters are investigated. The measured loss of the multimode waveguides is lower than 0.1dB/cm, and the additional loss of the multimode optical power splitters is lower than 1.3dB under the uniform splitting condition.
GAO Yang;GONG Zhao;BAI Ren;HAO Yin-Lei;LI Xi-Hua;JIANG Xiao-Qing;WANG Ming-Hua; PAN Jian-Xia;YANG Jian-Yi. Multimode-Waveguide-Based Optical Power Splitters in Glass[J]. 中国物理快报, 2008, 25(8): 2912-2914.
GAO Yang, GONG Zhao, BAI Ren, HAO Yin-Lei, LI Xi-Hua, JIANG Xiao-Qing, WANG Ming-Hua, PAN Jian-Xia, YANG Jian-Yi. Multimode-Waveguide-Based Optical Power Splitters in Glass. Chin. Phys. Lett., 2008, 25(8): 2912-2914.
[1] Beltrami D, Love J and Ladouceur F 1999 Opt. andQuantum Electron. 31 307 [2] Karioja P, Kusevic M, Hiltunen M, Paaso J, M?kinen J,Hiltunen J, Kautio K and Kopola H 2002 SPIE (San Jose 21-24January 2002) vol 4640 p 46 [3] Wang X, Jiang W, Wang L, Bi H and Chen R 2008 J.Lightwave Technol. 26 243 [4] Lu X, Jang C, An D, Zhou Q, Sun L, Zhang X, Chen R andDawson D 2002 Appl. Phys. Lett. 81 795 [5] Henry C, Blonder G and Kazarinov R 1989 J. LightwaveTechnol. 7 1530 [6] Kaede K and Ishikawa R 1983 Tech. Dig. 9th EuropeanConf. Opt. Commun. (Geneva 23--26 October 1983) p 209 [7] Balhut M 2003 SPIE 5028 90 [8] Swillam M, Morshed A and Khalil D 2005 SPIE (SanDiego 16-19 February 2003) vol 5970 p 59701G [9] Li X, Li X, Jiang X and Wang M 2004 Chin. Phys.Lett. 21 1556 [10] Gao Y 2007 MS thesis (Hangzou: ZhejiangUniversity) [11] Ilic I, Scarmozzino R, Osgood Jr. R, Yardley J, Beeson Kand McFarland M 1994 J. Lightwave Technol. 12 996 [12] Shen Y 2006 MS thesis (Hangzou: ZhejiangUniversity)