Jeong Sun Jae, Kim Jihoon, Choi Sungwook, Lee Seul-Lee, Kim Min Seok, Kim Do Kyung, Lee Yong Wook
Interdisciplinary Program of Biomedical Mechanical & Electrical Engineering, Pukyong National University, 45 Yongso-ro, Nam-gu, Busan 48513, Korea.
School of Electrical Engineering, Pukyong National University, 45 Yongso-ro, Nam-gu, Busan 48513, Korea.
J Nanosci Nanotechnol. 2020 Jan 1;20(1):285-292. doi: 10.1166/jnn.2020.17247.
Here we report on the simultaneous measurement of bending and temperature, carried out using a long-period fiber grating (LPFG) inscribed on polarization-maintaining fiber (PMF) with a CO₂ laser at ~10.6 m. An LPFG written on PMF, referred to as a PM-LPFG, has an input-polarizationdependent resonance dip, and two separated resonance dips, designated as Dips and , are obtained with respect to orthogonal input polarization. At the resonance wavelengths of Dips and , the core mode is coupled into two different cladding modes that have different bending and temperature sensitivities. The fabricated PM-LPFG whose grating period and length are ~505 m and ~14.65 mm, respectively, has two resonance wavelengths, i.e., = ~1479.98 nm and = ~1568.78 nm, measured with respect to two orthogonal input polarization states. The bending sensitivities of this PM-LPFG were measured as ~22.23 and ~33.38 nm/m (adjusted ² values: ~0.9916 and ~0.9810) at and , respectively, in a curvature range of 1.41-2.30 m. The temperature sensitivities of the PM-LPFG were measured as ~0.132 and ~0.039 nm/°C (adjusted ² values: ~0.9929 and ~0.9980) at and , respectively, in a temperature range of 30-90 °C. These linear bending and temperature responses of the PM-LPFG at two different resonance wavelengths enable simultaneous measurement of bending and temperature variations applied to the PM-LPFG.
在此,我们报告了使用在保偏光纤(PMF)上用二氧化碳激光在约10.6米处写入的长周期光纤光栅(LPFG)进行弯曲和温度的同步测量。写在PMF上的LPFG,称为保偏长周期光纤光栅(PM-LPFG),具有与输入偏振相关的谐振凹陷,并且相对于正交输入偏振可获得两个分离的谐振凹陷,分别称为凹陷1和凹陷2。在凹陷1和凹陷2的谐振波长处,纤芯模式耦合到具有不同弯曲和温度灵敏度的两种不同包层模式中。所制造的PM-LPFG的光栅周期和长度分别约为505微米和14.65毫米,相对于两个正交输入偏振态测量得到两个谐振波长,即λ1约为1479.98纳米和λ2约为1568.78纳米。在1.41 - 2.30米的曲率范围内,该PM-LPFG在λ1和λ2处的弯曲灵敏度分别测量为约22.23和33.38纳米/米(调整后的R²值:约0.9916和0.9810)。在30 - 90°C的温度范围内,该PM-LPFG在λ1和λ2处的温度灵敏度分别测量为约0.132和0.039纳米/°C(调整后的R²值:约0.9929和0.9980)。PM-LPFG在两个不同谐振波长处的这些线性弯曲和温度响应使得能够同步测量施加到PM-LPFG上的弯曲和温度变化。
