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掺镱锂硅酸盐玻璃的光谱及离子交换特性分析 被引量:1

Spectrum and Ion-Exchange Properties of Ytterbium-Doped Lithium Silicate Glass
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摘要 采用高温二次化料的方法制备一种多梯度折射率芯光纤所用掺镱锂硅酸盐玻璃,测量了玻璃样品的吸收光谱、荧光光谱和荧光寿命,利用McCumber理论计算了该玻璃系统中镱离子的2F5/2→2I7/2能级跃迁受激发射截面。研究表明锂硅酸盐玻璃中Yb3+在1006nm处的σemi为0.38×10-20 cm2,荧光有效线宽为82.4nm,荧光寿命为1.31ms。在530℃高温硝酸钠熔盐中,对玻璃Li+-Na+离子交换到达中心轴前后制作的梯度折射率透镜的成像和折射率分布特性进行了研究。光谱分析和离子交换实验结果表明,该玻璃是制作梯度折射率光纤的理想材料,可用于多梯度折射率芯光纤的制作,是大模场光纤的候选材料。 An Yb3+-doped lithium silicate glass for multi-graded-index-core fiber is prepared by a two-step melting process. Absorption, emission spectra and fluorescence-lifetime of the samples are measured, and the stimulated emission cross-section σemi of Yb3+ ..2F5/2 →2 I7/2 transition in samples is calculated by McCumber theory. It is found that σemi of Yb3+ ions in lithium silicate glass at 1006 nm is 0.38 × 10 20 cm2 , and its fluorescence effective line-width is about 82.4 nm, its fluorescence lifetime is 1.31 ms. The Li+ -Na+ ion-exchange properties of Yb3+ doped lithium silicate glasses are investigated in molten sodium nitrate at 530 ℃. Imaging properties and radial refractive index profile of gradient index lens made by ytterbium-doped lithium silicate glass before and after central-axis of Yb3+- doped lithium silicate glass rod Li+-Na+-ion-exchanged is studied. Spectral analysis and ion-exchange experimental results show that the glass is an ideal material for production of gradient index laser optical fiber. It can be used for multiple gradient index core fiber. A combination of good lasing and ion-exchange properties enables a new approach to large-mode-area fiber laser.
作者 吴青晴 许峰 张桂菊 张翔 袁孝 邹快盛
机构地区 苏州大学现代光学技术研究所江苏省先进光学制造技术重点实验室
出处 《光学学报》 EI CAS CSCD 北大核心 2012年第9期186-191,共6页 Acta Optica Sinica
基金 国家自然科学基金(91023009 61108024) 国家自然科学基金委员会和中国工程物理研究院联合基金(11176021 11076021 10876011) 江苏省高校自然科学研究项目(10KJA140045 09KJB140008) 江苏省高校优势学科建设工程资助课题
关键词 材料 多渐变折射率芯光纤 镱离子 锂硅酸盐玻璃 Li+-Na+离子交换 光谱性质 materials multi-graded-index core fiber ytterbium ions lithium silicate glass Li+-Na+ ion-exchange spectroscopic properties
分类号 TN244 [电子电信—物理电子学]
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共引文献30

同被引文献20

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光学学报
2012年 第9期

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