Liu Tiegen, Chen Anqi, Sang Mei, Zhang Jingchuan, Wang Shuang, Jiang Junfeng, Dong Jie
Appl Opt. 2021 Oct 20;60(30):9280-9286. doi: 10.1364/AO.434876.
The optical fiber curvature sensor is an important device that is widely used in the field of medical instruments. In this paper, we proposed a high sensitivity curvature sensor based on a long period fiber grating (LPFG), which is inscribed in the two-mode fiber (TMF) by laser pulses. Unlike the traditional LPFG in the single-mode fiber, TMF-LPFG couples the high-order mode in the core with the modes in the cladding. From the experiment results, the wavelength shifts to the short-wave direction as the sensor bends. This sensor offers a high curvature sensitivity of -23.67/ in the range of 1.137-4.684 and -18.95/ in the range of 4.766-6.132, respectively. Moreover, this sensor has the advantage of low transmission loss, which is less than -4.
光纤曲率传感器是一种在医疗器械领域广泛应用的重要器件。在本文中,我们提出了一种基于长周期光纤光栅(LPFG)的高灵敏度曲率传感器,该光栅通过激光脉冲写入双模光纤(TMF)中。与单模光纤中的传统LPFG不同,TMF-LPFG将纤芯中的高阶模与包层中的模式耦合。从实验结果来看,当传感器弯曲时,波长向短波方向移动。该传感器在1.137 - 4.684范围内的曲率灵敏度为-23.67/,在4.766 - 6.132范围内的曲率灵敏度为-18.95/。此外,该传感器具有传输损耗低的优点,小于-4 。