[1] Liu K, Zhang F L, Li Z, et al. Large-scale passive laser gyroscope for earth rotation sensing [J]. Optics Letters, 2019, 44(11): 2732-2735.
[2] Virgilio A D, Beverini N, Carelli G, et al. Analysis of ring laser gyroscopes including laser dynamics [J]. European Physical Journal C, 2019, 79(7): 573.
[3] Sheng S. Optical-axis perturbation singularity in an out-of-plane ring resonator [J]. Optics Letters, 1994, 19(10): 683-685.
[4] Yuan J, Long X, Chen M, et al. Generalized ray matrix for spherical mirror reflection and its application in square ring resonators and monolithic triaxial ring resonators [J]. Optics Express, 2011, 19(7): 6762-6776.
[5] Rodloff R. A laser gyro with optimized resonator geometry [J]. IEEE Journal of Quantum Electronics, 1987, 23(4): 438-445.
[6] Virgilio A D, Allegrini M, Beghi A, et al. A ring lasers array for fundamental physics [J]. Comptes Rendus Physique, 2014, 15(10): 866-874.
[7] Belfi J, Beverini N, Bosi F, et al. Deep underground rotation measurements: GINGERino ring laser gyroscope in Gran Sasso [J]. Review of Scientific Instruments, 2017, 88(3): 034502.
[8] Belfi J, Beverini N, Bosi F, et al. First results of GINGERino, a deep underground ringlaser [J]. ar-Xiv: Instrumentation and Detectors, 2016, 1601:02874.
[9] Cuccato D, Beghi A, Belfi J, et al. Controlling the non-linear intracavity dynamics of large He-Ne laser gyroscopes [J]. Metrologia, 2014, 51(1): 97-107.
[10] Schreiber U K, Rowe C H, Wright D N, et al. Precision stabilization of the optical frequency in a large ring laser gyroscope [J]. Applied Optics, 1998, 37(36): 8371-8381.
[11] Bilger H R, Stedman G E. Stability of planar ring lasers with mirror misalignment [J]. Applied Optics, 1987, 26(17): 3710-3716.
[12] Hurst R B, Rabeendran N, Schreiber K U, et al. Correction of backscatter-induced systematic errors in ring laser gyroscopes [J]. Applied Optics, 2014, 53(31): 7610-7618.
[13] Sridhar G, Agarwalla S K, Singh S, et al. Cavity ring-down technique for measurement of reflectivity of high reflectivity mirrors with high accuracy [J]. Pramana, 2010, 75(6): 1233-1239.
[14] Yuan J, Long X, Liang L, et al. Nonplanar ring resonator modes: generalized Gaussian beams [J]. Applied Optics, 2007, 46(15): 2980-2989.
[15] Hurst R B, Wells J P, Stedman G E, et al. An elementary proof of the geometrical dependence of the Sagnac effect [J]. Journal of Optics, 2007, 9(10): 838-841.
[16] Aronowitz F, Collins R J. Mode coupling due to backscattering in a He-Ne traveling-wave ring laser [J]. Applied Physics Letters, 1966, 9(1): 55-58.
[17] Barnett G A, Benson S V, Madey J M, et al. Warm cavity modes of free-electron laser resonators with on-axis holes [J]. IEEE Journal of Quantum Electronics, 1993, 29(2): 479-486.
[18] Stefani F, Belfi J, Maccioni E, et al. A heterodyne frequency-stabilization method for large ring laser gyroscopes with Sub-nW output power [C]. Prague: Joint European Frequency and Time Forum & International Frequency Control Symposium, 2013.
[19] Dunn R W, Shabalin D E, Thirkettle R J, et al. Design and initial operation of a 367-m2 rectangular ring laser [J]. Applied Optics, 2002, 41(9): 1685-1688.
[20] Rowe C H, Schreiber U, Cooper S J, et al. Design and operation of a very large ring laser gyroscope [J]. Applied Optics, 1999, 38(12): 2516-2523.
[21] Khankhua S, Ashraf M W, Afzulpurkar N, et al. Design and simulation of MEMS based tuning fork micro-gyroscope [J]. Applied Mechanics and Materials, 2011, 110-116: 5036-5043.
[22] Dunn R W. Design of a triangular active ring laser 13 m on a side [J]. Applied Optics, 1998, 37(27): 6405-6409.
[23] Arnaudon L, Bordry F, Coosemans W, et al. Effects of tidal forces on the beam energy in LEP [C]. Washington: International Conference on Particle Accelerators, 1993.
[24] Azarova V V, Makeev A P, Kuznetsov E V, et al. Frequency Response of Laser Gyroscopes in a Wide Range of Rotation Velocities [J]. Gyroscopy and Navigation, 2018, 9(3): 191-198.
