標題: 平面光波導放大器應用之鉺摻雜二氧化鈦基薄膜材料製程、光學性質與結構分析研究
Optical characterization, structural analysis, and processing development of erbium-doped titania-based films for the planar optical waveguide amplifier
作者: 丁初稷
Chu Chi Ting
陳三元
San Yuan Chen
材料科學與工程學系
關鍵字: 鉺;放大器;平面光波導;二氧化鈦;erbium;amplifier;planar waveguide;titanium oxide
公開日期: 2000
摘要: 平面光波導放大器應用之鉺摻雜二氧化鈦基薄膜材料製程、光學性質與結構分析研究 本研究之主要目的在於揭示一種以氧化鈦-氧化釔複合材料來當作母材的鉺摻雜氧化鈦-氧化釔複合材料,其藉由釔離子的摻雜,將使得此複合材料所放射出的~1.54μm螢光的發光強度較現今被廣泛報導且具有良好螢光特性的鉺、鋁共摻雜氧化矽薄膜的螢光強度還強約10倍,且此螢光頻譜的半高寬亦增寬約1.5倍,此外,此複合薄膜亦具有較低的製程溫度與較低的製程成本,故其可應用在積體光學中平面光波導放大器的製作上。
Titanium oxide thin films were fabricated by the thermal oxidation of sputtered Ti film and wet chemical [sol-gel and metalorganic decomposition (MOD)] processing. The different physical characteristics of TiO2 films such as phase composition, the rate of anatase-to-rutile (A→R) phase transformation, texture, and microstructure was first investigated. For the TiO2 films prepared by the thermal oxidation of Ti film, only single-phase rutile TiO2 was detected and its crystal orientation was strongly related the crystallinity of initial Ti films. On the other hand, the A→R phase transformation can be observed in the TiO2 films fabricated by wet chemical processing. Compared with sol-gel-derived TiO2 film, the MOD-derived TiO2 film had a lower A→R transformation temperature and activation energy, which is attribute to the smaller grain size and more potential nucleation sites existing in the un-transformed MOD-TiO2 film. The sol-gel method was utilized to fabricate the Er3+-doped TiO2 and SiO2-based materials. Some hetero-species such as Y3+or Yb3+ ions are selected to codope with Er3+ ions into the host materials. It was found that optically active Er ions have Er2O3-like local environment in the Er3+-Y3+ (or Er3+-Yb3+) codoped TiO2 and SiO2 systems. Yb3+ or Y3+ codopant can obviously enhance the ~1.54μm PL intensity and enlarge spectral bandwidth of Er3+-doped TiO2 and SiO2 systems. The average spatial distance between Er3+ ions is enlarged due to the partial substitution of Yb3+ (or Y3+) for Er3+ ions in the Er2O3-like local structure. This indicates that both Yb3+ and Y3+ ions act as dispersers to Er3+ ions and reduce the concentration quenching effect. In addition, Yb3+ ion does not only play a disperser but also sensitizer to Er3+ ion. This dual effects lead to Er3+-Yb3+ codoped TiO2 system to have larger visible and infrared fluorescence efficiencies compared to Er3+-Y3+ codoped TiO2 system.
URI: http://140.113.39.130/cdrfb3/record/nctu/#NT890159065
http://hdl.handle.net/11536/66688
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