期刊文献+
任意字段
题名或关键词
题名
关键词
文摘
作者
第一作者
机构
刊名
分类号
参考文献
作者简介
基金资助
栏目信息

Nd^(3+)掺杂硫系玻璃微球荧光腔量子电动力学增强效应 被引量:3

Cavity Quantum Electrodynamic Fluorescence Enhancement Effect of Nd^(3+)-Doped Chalcogenide Glass Microspheres
原文传递
导出
摘要 采用粉料漂浮高温熔融法自制Nd3+掺杂硫系玻璃微球,研究了腔量子电动力学增强效应对稀土掺杂硫系玻璃微球荧光光谱的影响。把直径90.53μm的硫系玻璃微球与锥腰直径1.02μm的石英光纤锥耦合,将808nm抽运激光导入微球,荧光光谱存在分立的共振峰。根据米氏散射理论公式,计算得到TE偏振态下基模的三个共振峰位置,确定了这三个共振峰的模式序数。增强因子η≈1122,这表明微球荧光自发辐射速率增强幅度为1122倍。在基模条件下对原增强因子公式进行近似化简,并利用近似公式进行估算得到η≈1167,误差为4%。 Homemade Nd3+ doped chalcogenide glass microspheres are fabricated using the method of melting floating glass powder at high temperature. It is reported that the fluorescence spectra of chalcogenide glass microsphere are modified by the cavity quantum electrodynamic enhancement effect. A 90.53-μm diameter chalcogenide glass microsphere is coupled with the silica fiber-taper that has a cross-sectional diameter of 1.02μm. An 808-nm laser is used as a pumping source for the microsphere cavity and separate resonance peaks found in the microsphere fluorescence spectra. According to the Mie scattering theory, positions and mode ordinals of three resonance peaks for the fundamental TE mode are calculated. Based on the formula for calculating the cavity quantum electrodynamic enhancement factor, it is found that the enhancement factor η of our chalcogenide glass microsphere is 1122, which indicates that spontaneous fluorescence emission rate is enhanced by 1122 times. By simplifying the enhancement factor formula for the fundamental TE mode, it is found that the enhancement factor estimated is 1167, which indicates an error rate of 4 %.
作者 李超然 吴越豪 戴世勋 路来伟 吕社钦 沈祥 张培晴 许银生
机构地区 宁波大学高等技术研究院红外材料与器件实验室
出处 《光学学报》 EI CAS CSCD 北大核心 2014年第2期219-223,共5页 Acta Optica Sinica
基金 教育部新世纪优秀人才计划(NCET-10-0976) 宁波市新型光电功能材料及器件创新团队项目(2009B21007) 宁波大学王宽诚幸福基金
关键词 光学器件 腔量子电动力学 米氏散射理论 硫系玻璃 微球 回音壁模式 optical devices cavity quantum electrodynamics Mie scattering theory chalcogenide glass microsphere whispering gallery mode
分类号 O433.1 [机械工程—光学工程] O413.2 [理学—理论物理]
  • 相关文献

参考文献4

二级参考文献60

共引文献16

同被引文献89

  • 1吕社钦,吴越豪,路来伟,李超然,张培晴,张巍,戴世勋.Er^(3+)掺杂硫系玻璃微球在980nm激光泵浦下的荧光特性[J].发光学报,2014,35(4):454-459. 被引量:5
  • 2Koonath P, Kishima K, Indukuri T, et al.. Sculpting of three- dimensional nano- optical structures in silicon [J]. Appl Phys Lett, 2003, 83(24): 4909-4911.
  • 3Tong L, Gattass R R, Ashcom J B, et al.. Subwavelength-diameter silica wires for low-loss optical wave guiding [J]. Nature, 2003, 426(6968): 816-819.
  • 4Zakery A, Elliott S R. Optical properties and applications of chalcogenide glasses: a review [J]. Journal of Non- Crystalline Solids, 2003, 330(1-3): 1-12.
  • 5Seddon A B. Chalcogenide glasses: a review of their preparation, properties and applications [J]. Journal of Non- Crystalline Solids, 1995, 184(0): 44-50.
  • 6Smektala F, Brilland L, Chartier T, et al.. Recent advances in the development of holey optical fibers based on sulphide glasses [C]. SPIE, 2006, 5128: 61280M.
  • 7Slusher R E, Lenz G, Hodelin J, et al.. Large Raman gain and nonlinear phase shifts in high-purity As2Se3 chalcogenide fibers [J]. J Opt Soc Am B, 2004, 21(6): 1146-1155.
  • 8Mescia L, Bia P, De Sario M, et al.. Design of mid-infrared amplifiers based on fiber taper coupling to erbium-doped microspherical resonator [J]. Opt Express, 2012, 20(7): 7616-7629.
  • 9Carlie N, Musgraves J D, Zdyrko B, et al.. Integrated chalcogenide waveguide resonators for mid-IR sensing: leveraging material properties to meet fabrication challenges [J]. Opt Express, 2010, 18(25): 26728-26743.
  • 10Yeom D I, Mfigi E C, Lamont M R E, et al.. Low-threshold supercontinuum generation in highly nonlinear chalcogenide nanowires [J]. Opt Lett, 2008, 33(7): 660-662.

引证文献3

二级引证文献13

光学学报
2014年 第2期

相关作者

内容加载中请稍等...

相关机构

内容加载中请稍等...

相关主题

内容加载中请稍等...

浏览历史

内容加载中请稍等...
;
使用帮助 返回顶部