Hollow-core resonator fiber optic gyroscope using nodeless anti-resonant fiber

被引：74

作者：

Sanders, Glen A. ^{[1
]}

Taranta, Austin A. ^{[2
]}

Narayanan, Chellappan ^{[1
]}

Fokoua, Eric Numkam ^{[2
]}

Mousavi, Seyedmohammad Abokhamis ^{[2
]}

Strandjord, Lee K. ^{[3
]}

Smiciklas, Marc ^{[1
]}

Bradley, Thomas D. ^{[2
]}

Hayes, John ^{[2
]}

Jasion, Gregory T. ^{[2
]}

Qiu, Tiequn ^{[1
]}

Williams, Wes ^{[1
]}

Poletti, Francesco ^{[2
]}

Payne, David N. ^{[2
]}

机构：

[1] Honeywell Int, 21111 N 19th Ave, Phoenix, AZ 85027 USA

[2] Univ Southampton, Optoelect Res Ctr, Southampton SO17 1BJ, Hants, England

[3] Honeywell Int, 12001 State Highway 55, Plymouth, MN 55441 USA

来源：

OPTICS LETTERS | 2021年 / 46卷 / 01期

基金：

英国工程与自然科学研究理事会; 欧洲研究理事会;

关键词：

RING-RESONATOR; SENSITIVITY;

D O I：

10.1364/OL.410387

中图分类号：

O43 [光学];

学科分类号：

070207 ; 0803 ;

摘要：

Resonator fiber optic gyroscope (RFOG) performance has hitherto been limited by nonlinearity, modal impurity, and backscattering in the sensing fibers. The use of hollowcore fiber (HCF) effectively reduces nonlinearity, but the complex interplay among glass and air-guided modes in conventional HCF technologies can severely exacerbate RFOG instability. By employing high-performance nested anti-resonant nodeless fiber, we demonstrate long-term stability in a hollow-fiber RFOG of 0.05 deg/h, nearing the levels required for civil aircraft navigation. This represents a 3 x improvement over any prior hollow-core RFOG and a factor of 500 x over any prior result at integration times longer than 1 h.

引用

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页码：46 / 49

页数：4

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