Cavity-ring-down principle for fiber-optic resonators: experimental realization of bending loss and evanescent-field sensing

von Lerber T.; Sigrist MW.

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Cavity-ring-down principle for fiber-optic resonators: experimental realization of bending loss and evanescent-field sensing

机译：光纤谐振器的腔衰荡原理：弯曲损耗和e逝场感测的实验实现

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A novel measurement principle for fiber-optic sensing is presented. Use of a cavity-ring-down scheme enables measurements of minute optical losses in high-finesse fiber-optic cavities. The loss may be induced by evanescent-field absorption, fiber bending, fiber degradation, Bragg gratings, or any other effect that might change the fiber transmission or cavity reflector properties. The principle is proved to be rather insensitive to ambient perturbations such as temperature changes. A high-sensitivity measurement of loss due to bending is presented as a proof-of-principle. With a cavity finesse of 627 a sensitivity for induced loss of 108 ppm (4.68 x 10(-4) dB) is achieved. Preliminary measurements of evanescent-field absorption are also discussed. (C) 2002 Optical Society of America. [References: 32]

机译：提出了一种新颖的光纤传感测量原理。使用腔衰荡方案可以测量高精细光纤腔中的微小光学损耗。损耗可能是由e逝场吸收，光纤弯曲，光纤降解，布拉格光栅或任何其他可能改变光纤传输或空腔反射器特性的效应引起的。事实证明，该原理对环境扰动（例如温度变化）相当不敏感。作为原理的证明是对弯曲造成的损耗的高灵敏度测量。腔的细度为627，可实现感应损耗108 ppm（4.68 x 10（-4）dB）的灵敏度。还讨论了van逝场吸收的初步测量。（C）2002年美国眼镜学会。 [参考：32]

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《Applied optics》 |2002年第18期|共9页
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von Lerber T.; Sigrist MW.;
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1. Cavity-ring-down principle for fiber-optic resonators: experimental realization of bending loss and evanescent-field sensing [J] . von Lerber T., Sigrist MW. Applied optics . 2002,第18期

机译：光纤谐振器的腔衰荡原理：弯曲损耗和e逝场感测的实验实现
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4. Low-loss bend-bend coupler for Si-based ultra-small microrings resonator [C] . Jing Hu, Daoxin Dai Asia Communications and Photonics conference and Exhibition, 2009. ACP 2009 . 2009

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5. Experimental realization of nanofabricated semiconductor waveguide-coupled microcavity ring and disk optical resonators [D] . Rafizadeh, Deana. 1997

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6. Fiber-Optic Magnetic Field Sensing Based on Microfiber Knot Resonator with Magnetic Fluid Cladding [O] . Yuqi Li, Shengli Pu, Yongliang Zhao, 2018

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7. Multiplexed Bend Loss Type Single-Mode Fiber-Optic Displacement Sensor Using Reflection Signals Generated at Optical Connectors [O] . 2004

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8. Passive Fiber-Optic Ring Resonator for Rotation Sensing [R] . Meyer, R. E., Ezekiel, S., Stowe, D. W., 1983

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Cavity-ring-down principle for fiber-optic resonators: experimental realization of bending loss and evanescent-field sensing

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