Temperature response of the whispering gallery mode resonances from the green upconversion emission of an Er3+-Yb3+ co-doped microsphere

Perez-Rodriguez C.; Labrador-Paez L.; Martin I. R.; Rios S.

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Temperature response of the whispering gallery mode resonances from the green upconversion emission of an Er3+-Yb3+ co-doped microsphere

机译：Er3 + -Yb3 +共掺杂微球的绿色上转换发射的回音壁模式共振的温度响应

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Whispering gallery mode resonances lying in the green emission from an Er3+-Yb3+ co-doped glass microsphere have been analyzed under different temperatures in the range 290-380 K. Exciting the microsphere at 997 nm results in an upconversion emission with broad bands centered at 530 and 550 nm and overlapped resonances due to the spherical cavity. Both the band shape and the position of the resonances are temperature dependent which allow the correlation of the positions with the temperature inferred by the fluorescence intensity ratio technique. A resonances shift of 4.7 pm K-1 is achieved by laser heating in the power range 50-300 mW. The minimum temperature resolution has been found to be 0.7 K in the fluorescence intensity ratio technique and 100 times smaller for the whispering gallery mode shifts.

机译：在290-380 K范围内的不同温度下，对Er3 + -Yb3 +共掺杂玻璃微球绿色发射中的回音壁模式共振进行了分析。在997 nm激发微球会导致上转换发射，中心带宽为530 550 nm和由于球形腔而产生的重叠共振。共振带的形状和位置都与温度有关，这允许位置与通过荧光强度比技术推断的温度相关。通过在50-300 mW的功率范围内进行激光加热，可以实现4.7 pm K-1的共振位移。在荧光强度比技术中，发现最小温度分辨率为0.7 K，对于回音壁模式转换而言，最小温度分辨率小100倍。

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《Laser physics letters》 |2015年第4期|共7页
作者
Perez-Rodriguez C.; Labrador-Paez L.; Martin I. R.; Rios S.;
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正文语种 eng
中图分类光电子技术、激光技术;
关键词
optical temperature sensor; whispering gallery mode; Er3+; Yb3+; energy transfer; fluorescence intensity ratio; thermal sensitivity;

机译：光学温度传感器;耳语画廊模式;Er3 +;Yb3 +;能量转移;荧光强度比;热敏性;

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专利

1. Temperature response of the whispering gallery mode resonances from the green upconversion emission of an Er3+-Yb3+ co-doped microsphere [J] . Perez-Rodriguez C., Labrador-Paez L., Martin I. R., Laser physics letters . 2015,第4期

机译：Er3 + -Yb3 +共掺杂微球的绿色上转换发射的回音壁模式共振的温度响应
2. Temperature dependence of the whispering gallery modes obtained in a glass microsphere codoped with Er3+-Yb3+ ions [J] . Labrador-Paez L., Perez-Rodriguez C., Rios S., Sensors and Actuators, A. Physical . 2015,第Null期

机译：在掺有Er3 + -Yb3 +离子的玻璃微球中获得的回音壁模式的温度依赖性
3. Room-Temperature Red–Green–Blue Whispering-Gallery Mode Lasing and White-Light Emission from Cesium Lead Halide Perovskite (CsPbX_3, X = Cl, Br, I) Microstructures [J] . Pengfei Guo, Mohammad Kamal Hossain, Xia Shen, Advanced Optical Materials . 2018,第3期

机译：卤化钙铅钛矿（CsPbX_3，X = Cl，Br，I）的室温红绿绿蓝光窃窃私语模式发射和白光发射
4. Classification of antibiotics by neural network analysis of optical resonance data of whispering gallery modes in dielectric microspheres [C] . Vladimir A. Saetchnikov, Elina A. Tcherniavskaia Nanophotonics IV. . 2012

机译：通过神经网络分析介电微球中回音壁模式的光学共振数据对抗生素进行分类
5. An optical wall shear stress sensor based on whispering gallery modes of dielectric microspheres. [D] . Ayaz, Ulas Kemal. 2011

机译：一种基于介电微球回音壁模式的光学壁面剪切应力传感器。
6. Mode-Splitting for Refractive Index Sensing in Fluorescent Whispering Gallery Mode Microspheres with Broken Symmetry [O] . Yvonne Q. Kang, Alexandre François, Nicolas Riesen, 2018

机译：分裂对称的荧光耳语画廊模式微球中折射率传感的模式分解
7. Thermo-optical tuning of whispering-gallery modes in Er:Yb co-doped phosphate glass microspheres [O] . Ward Jonathan M., Nic Chormaic Síle 2010

机译：Er：Yb共掺杂磷酸盐玻璃微球中耳语画廊模式的热光调节
8. Polarization Dependent Whispering Gallery Modes in Microspheres. [R] . Adamovsky, G., Wrbanek, S. Y. 2016

机译：微球中的偏振相关的耳语库模式。

Temperature response of the whispering gallery mode resonances from the green upconversion emission of an Er3+-Yb3+ co-doped microsphere

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