Effect of material and waveguide parameters on strain sensitivity of uniform long-period fiber grating

机译：材料和波导参数对均匀长周期光纤光栅应变敏感性的影响

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This study validates the dependency of strain sensitivity of uniform long period fiber grating (LPFG) on its periodic structure and mode order. Due to applied axial strain the material and waveguide parameters of LPFG changes which cause the shifts in position of attenuation band in LPFG spectra. The shift in attenuation band is used to gauge the response of cladding modes LP, LP, LP, LP and LP possessing different grating periods. The LPFG is modeled on SMF28 optical fiber's specifications and shift in attenuation band is studied over applied axial strain range of 0-1000 μs (micro strain). The strain sensitivities achieved by all modes are -0.113pm/μs, -0.18pm/μs, -0.22pm/μs, -0.12pm/μs and 2.88pm/μs respectively.

机译：这项研究验证了均匀长周期光纤光栅（LPFG）的应变敏感性对其周期结构和模序的依赖性。由于施加的轴向应变，LPFG的材料和波导参数会发生变化，从而导致LPFG频谱中衰减带的位置发生偏移。衰减带中的偏移用于测量具有不同光栅周期的包层模式LP，LP，LP，LP和LP的响应。 LPFG以SMF28光纤的规格为模型，并在0-1000μs（微应变）的施加轴向应变范围内研究了衰减带的偏移。通过所有模式获得的应变灵敏度分别为-0.113pm /μs，-0.18pm /μs，-0.22pm /μs，-0.12pm /μs和2.88pm /μs。

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《International Conference on Signal Processing and Communications》|2015年|448-451|共4页
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Prashar Shivendu; Engles Derick; Singh Pawandeep;
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Strain sensors; grating period; long-period fiber grating; mode order; strain sensitivity;

机译：应变传感器;光栅周期;长周期光纤光栅;模式阶数;应变灵敏度;

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5. Effect of material and waveguide parameters on strain sensitivity of uniform long-period fiber grating [C] . Prashar Shivendu, Engles Derick, Singh Pawandeep International Conference on Signal Processing and Communications . 2015

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Effect of material and waveguide parameters on strain sensitivity of uniform long-period fiber grating

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