Novel sol-gel material for fabrication of a long period waveguide grating filter as a precise thermometer 被引量：2

Novel sol-gel material for fabrication of a long period waveguide grating filter as a precise thermometer

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摘要 A new kind of organic-inorganic hybrid HfO 2/SiO 2 sol-gel material with a large thermo-optic coefficient and a wide linear tunable temperature range has been developed for fabrication of a long period waveguide grating (LPWG) filter,whose parameters were optimized and designed by using finite difference time domain (FDTD) simulations.The LPWG filter,a periodic rectangle-corrugated grating structure,was easily fabricated with soft-lithography technique.At a temperature range from 19°C to 70°C,the fabricated LPWG filter element demonstrated a high temperature sensitivity of about 6.5 nm/°C and a wide linear tunable temperature range of 51°C,so that it can be used as a precise thermometer.Our results are useful for the designs of LPWG filters for the implementation of a wide range of thermo-optic functions. A new kind of organic-inorganic hybrid HfO2/SiO2 sol-gel material with a large thermo-optic coefficient and a wide linear tunable temperature range has been developed for fabrication of a long period waveguide grating （LPWG） filter, whose parameters were optimized and designed by using finite difference time domain （FDTD） simulations. The LPWG filter, a periodic rectangle-corrugated grating structure, was easily fabricated with soft-lithography technique. At a temperature range from 19~C to 70~C, the fabricated LPWG filter element demonstrated a high temperature sensitivity of about 6.5 nm/~C and a wide linear tunable temperature range of 51℃, so that it can be used as a precise thermometer. Our results are useful for the designs of LPWG filters for the implementation of a wide range of thermo-optic functions.

作者 WANG Xin LI XiaoChan ZHANG Tao HU CanDong ZHU QiuXiang CHEN SiHai LI Yun XU Jia HE Miao NIU QiaoLi ZHAO LingZhi LI ShuTi ZHANG Yong

机构地区 Key Laboratory of Electroluminescent Devices of Guangdong Provincial Education Department College of Information Science ＆ Engineering Wuhan National Laboratory for Optoelectronics

出处《Science China(Physics,Mechanics & Astronomy)》 SCIE EI CAS 2011年第11期1967-1971,共5页 中国科学：物理学、力学、天文学（英文版）

基金 supported by the Natural Science Foundation of Guangdong Province,China (Grant Nos. 8251063101000007,10151063101000009 and 9451063101002082) the Scientific & Technological Plan of Guangdong Province (Grant Nos. 2008B010200004,2010B010600030 and 2009B011100003) the National Natural Science Foundation of China (Grant Nos. 61078046 and 10904042) the Key Project of Chinese Ministry of Education (Grant No. 210157) the Scientific & Technological Project of Education Department of Hubei Province (Grant No. D20101104) the Fundamental Research Funds for the Central Universities (Grant No. HUST 2010MS069) Program for New Century Excellent Talents in University,China (Grant No. 07-0319)

关键词 SIO2溶胶凝胶材料温度计光栅滤波器周期波导制作时域有限差分线性可调 LPWG filter, soft-lithography, sol-gel material, temperature sensitivity

分类号 TN713 [电子电信—电路与系统] TQ57 [化学工程—精细化工]

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参考文献11

1H.Y. Tang,W.H. Wong,E.Y.B. Pun.Long period polymer waveguide grating device with positive temperature sensitivity[J].Applied Physics B.2004(1)
2He M,Yuan X C,Bu J,et al.Hybrid sample-inverted reflow and soft-lithography technique for fabrication of conicoid microlens array[].Applied Optics.2005
3Pisignano D,Anni M,Gigli G,et al.Flexible organic distributed feedback structures by soft lithography[].Synthetic Metals.2003
4Horvath R,Lindvold L R,Larsen N B.Fabrication of all-polymer freestanding waveguides[].Journal of Micromechanics and Microengineering.2003
5Liu Q,Chiang K S,Lor K P,et al.Temperature sensitivity of a long-period waveguide grating in a channel waveguide[].Applied Physics Letters.2005
6O’’Flaherty F J,Ghassemlooy Z,Mangat P S,et al.Temperature characterisation of long-period gratings for sensor applications[].Microw Opt Technol Lett.2004
7Lor K P,Liu Q,Chiang K S.UV-written long-period gratings on polymer waveguides[].IEEE Photonics Technology Letters.2005
8Jin W,Chiang K S,Liu Q.Electro-optic long-period waveguide gratings in lithium niobate[].Optics Express.2008
9Kwon M S,Cho Y B,Shin S Y.Experimental demonstration of a long-period grating based on the sampling theorem[].Applied Physics Letters.2006
10Miao He,Jing Bu,Biow Hiem Ong,and Xiaocong Yuan.Two-Microlens Coupling Scheme With Revolved Hyperboloid Sol-Gel Microlens Arrays for High-Power-Efficiency Optical Coupling[].Journal of lightwave technology.2006

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1金菊英,钱景仁.缓变截面周期波导色散特性的研究[J].电子科学学刊,1989,11(4):416-421.
2李志军,曾以成.线性可调全差分OTA的实现[J].电路与系统学报,2013,18(1):102-106. 被引量：5
3剑萍.Z112,“黑胶化”的Z110[J].视听技术,2007(6):54-56.
4王展飞,鲁文高,李峰,李志宏.一种频率线性可调的正交正弦波振荡器[J].北京大学学报（自然科学版）,2009,45(1):49-53. 被引量：2
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10孙天玉,晋云霞,邵建达,范正修.Guided-mode resonances in multimode planar periodic waveguides[J].Chinese Optics Letters,2010,8(6):557-559.

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Novel sol-gel material for fabrication of a long period waveguide grating filter as a precise thermometer 被引量：2

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