Jiang Biqiang, Zhou Kaiming, Wang Changle, Zhao Yunhe, Zhao Jianlin, Zhang Lin
Opt Express. 2017 Oct 16;25(21):25910-25918. doi: 10.1364/OE.25.025910.
We present a refractometer with main- and vernier-scale to measure the refractive index (RI) of liquids with high precision by using the fine spectrum structure of a tilted fiber Bragg grating (TFBG). The absolute RI values are determined by the accurate wavelength of cut-off mode resonances. The main- and vernier-scale are calibrated by measuring large groups of fine spectra at different cut-off mode resonances in a small RI range, and the use of vernier-scale certainly reduces the RI measurement uncertainty resulted from the discrete cladding mode resonances. The performance of the TFBG-based vernier refractometer is experimentally verified by exploring the temperature dependence of RI of anhydrous ethanol in a near infrared region, showing an enhanced accuracy to the order of 10, high repeatability and temperature self-calibration capability.
我们展示了一种带有主刻度和游标刻度的折射仪,通过利用倾斜光纤布拉格光栅(TFBG)的精细光谱结构来高精度测量液体的折射率(RI)。绝对RI值由截止模式共振的精确波长确定。通过在小RI范围内测量不同截止模式共振下的大量精细光谱来校准主刻度和游标刻度,并且使用游标刻度肯定会降低由离散包层模式共振导致的RI测量不确定性。通过探索近红外区域无水乙醇RI的温度依赖性,对基于TFBG的游标折射仪的性能进行了实验验证,结果表明其精度提高到了10的量级,具有高重复性和温度自校准能力。