Suo Xinxin, Yu Haicheng, Li Jing, Wu Xudong
Opt Lett. 2020 Apr 15;45(8):2227-2230. doi: 10.1364/OL.388274.
A novel scheme for a double closed-loop resonant fiber-optic gyroscope (R-FOG) employing a high-performance transmissive Kagome hollow-core photonic crystal fiber (HCPCF) resonator is proposed. We use specially designed Kagome HCPCFs and a meniscus lens module to form a resonator, whose finesse is 58.2 with a length of 5.6 m and a diameter of 13 cm; the theoretical sensitivity of the R-FOG is better than 0.05°/h. Based on the novel Kagome HCPCF resonator, a double closed-loop R-FOG is set up and the performance of the R-FOG system is experimentally studied. It demonstrates that white noise dominates in the output at the integration time of 200 s and a bias stability of 0.15°/h and angle random walk coefficient of $0.04^{\circ},{\rm h}^{1/2}$0.04h are achieved. Over a dynamic range of ${-}{100}^\circ {\rm /s}$-100/s to 100°/s, the scale factor nonlinearity of the FOG is 310 ppm, which shows significant improvement compared with the single closed-loop R-FOG system. The novel double closed-loop R-FOG proposed is quite feasible for tactical grade applications.
提出了一种采用高性能透射式Kagome空心光子晶体光纤(HCPCF)谐振器的双闭环谐振光纤陀螺(R-FOG)新方案。我们使用专门设计的Kagome HCPCF和弯月面透镜模块形成一个谐振器,其精细度为58.2,长度为5.6 m,直径为13 cm;R-FOG的理论灵敏度优于0.05°/h。基于新型Kagome HCPCF谐振器,搭建了双闭环R-FOG,并对R-FOG系统的性能进行了实验研究。结果表明,在200 s的积分时间内,输出中白噪声占主导,实现了0.15°/h的偏置稳定性和0.04°h的角度随机游走系数。在-100°/s至100°/s的动态范围内,光纤陀螺的标度因数非线性为310 ppm,与单闭环R-FOG系统相比有显著改善。所提出的新型双闭环R-FOG在战术级应用中非常可行。
