Characterization of fiber Bragg grating based on grating profile and apodization for sensor applications

机译：基于光栅轮廓和传感器应用的光纤布拉格光栅的谱表征

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In this paper, characterization of the fiber Bragg grating (FBG) based on grating profile and apodization type has done. The FBG parameters considered here are grating length, grating profile and apodization type. The characteristics of FBG include reflectivity, full width at half maximum (FWHM) and side lobe power. The FBGs having high reflectivity, low FWHM and side lobe power are required for the sensing applications. A GratingMOD simulation tool based on a coupled mode theory and a transfer matrix method is used for the characterization of FBG. The effect of FBG parameters, grating length, grating profile and apodization on the characteristics of FBG is studied. The FBG parameters, grating length, grating profile and apodization type are optimized for the sensing applications. The FBG having grating length, 5 mm, sinusoidal profile and apodization type is optimized.

机译：本文基于光栅曲线和沉积型的光纤布拉格光栅（FBG）的表征已经完成。这里考虑的FBG参数是光栅长度，光栅轮廓和沉积型。 FBG的特性包括反射率，半最大（FWHM）和侧瓣功率的全宽。感测应用需要具有高反射率，低FWHM和侧瓣功率的FBG。基于耦合模式理论的胶合模拟工具和传输矩阵方法用于FBG的表征。研究了FBG参数，光栅长度，光栅曲线和对FBG特性的影响。针对感测应用，优化了FBG参数，光栅长度，光栅轮廓和涂层型。优化具有光栅长度，5mm，正弦曲线和沉积型的FBG。

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《International Conference on Emerging Technologies: Micro to Nano》|2018年|various paging|共7页
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Shrikant Maske; P. B. Buchade; A. D. Shaligram;
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1. Highly dispersion tailored properties of few mode fiber Bragg grating-based vibration sensor due to a perturbed apodization profile [J] . Sanjeev Kumar Raghuwanshi, Manish Kumar Optical engineering . 2018,第5期

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2. Impact of Apodization Profile on Performance of Fiber Bragg Grating Strain-Temperature Sensor [J] . Shaymaa R. Tahhan, Mudhafar Hussein Ali, Marwah Ali Zaidan Al-Ogaidi, Journal of Communications . 2019,第1期

机译：切趾轮廓对光纤布拉格光栅应变温度传感器性能的影响
3. Characterization of apodized fiber Bragg gratings for rejection filter applications [J] . Canning J, Psaila DC, Brodzeli Z, Applied optics . 1997,第36期

机译：用于抑制滤波器应用的变迹光纤布拉格光栅的特性
4. Characterization of fiber Bragg grating based on grating profile and apodization for sensor applications [C] . Shrikant Maske, P. B. Buchade, A. D. Shaligram International Conference on Emerging Technologies: Micro to Nano . 2018

机译：基于光栅轮廓和传感器应用的光纤布拉格光栅的谱表征
5. Real-time Cure Monitoring of Composites Using a Guided wave-based System with High Temperature Piezoelectric Transducers, Fiber Bragg Gratings, and Phase-shifted Fiber Bragg Gratings [D] . Hudson, Tyler Blake. 2017

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6. An Improved Metal-Packaged Strain Sensor Based on A Regenerated Fiber Bragg Grating in Hydrogen-Loaded Boron–Germanium Co-Doped Photosensitive Fiber for High-Temperature Applications [O] . Yun Tu, Lin Ye, Shao-Ping Zhou, 2017

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7. Optimum apodization profile for chirped fiber Bragg gratings based chromatic dispersion compensator [O] . Y. T. Aladadi, A. F. Abas, M. T. Alresheedi 2016

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8. Hybrid Fiber Bragg Grating/Long Period Fiber Grating Sensor forStrain/Temperature Discrimination [R] . Kersey, A. D., Patrick, H. J. 1997

机译：用于链/温度鉴别的混合光纤布拉格光栅/长周期光纤光栅传感器

Characterization of fiber Bragg grating based on grating profile and apodization for sensor applications

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