[1] Zainuddin N M, Abd Rahman M S, Ab Kadir M Z A et al. Review of thermal stress and condition monitoring technologies for overhead transmission lines: issues and challenges[J]. IEEE Access, 8, 120053-120081(2020).
[2] Andersson G, Donalek P, Farmer R et al. Causes of the 2003 major grid blackouts in North America and Europe, and recommended means to improve system dynamic performance[J]. IEEE Transactions on Power Systems, 20, 1922-1928(2005).
[3] Kim J W, Sohn J H. Galloping simulation of the power transmission line under the fluctuating wind[J]. International Journal of Precision Engineering and Manufacturing, 19, 1393-1398(2018).
[4] Su C, Wu X M, Deng J W et al. Arc-sag monitoring and early-warning technology of overhead line based on ANSYS simulation[J]. Heilongjiang Electric Power, 40, 523-529(2018).
[5] Xu Q, Liu X Y, Zhu K et al. Magnetic-field-sensing-based approach for current reconstruction, sag detection, and inclination detection for overhead transmission system[J]. IEEE Transactions on Magnetics, 55, 4003307(2019).
[6] An Y, Yang H, Xiao H et al. 4-kW single-mode laser output using homemade double-tapered fiber[J]. Chinese Journal of Lasers, 48, 0115002(2021).
[7] Xi X M, Lin X F, Ye Y et al. 3.4 kW all-fiber oscillator based on novel core-spun gain fiber[J]. Chinese Journal of Lasers, 47, 1216001(2020).
[8] Wang Z Y, Zhang T T, Shi W H. Tunable supercontinuum generation in chalcogenide suspension core fibers via temperature control[J]. Chinese Journal of Lasers, 48, 0306001(2021).
[9] Salceda-Delgado G, van Newkirk A, Antonio-Lopez J E et al. Optical capillary fiber mode interferometer for pressure sensing[J]. IEEE Sensors Journal, 20, 2253-2260(2020).
[10] Zhu X L, Xiang H X. Tapered splice technique for capillary optical fiber[J]. Optical Fiber Technology, 36, 130-133(2017).
[11] Heiblum M, Harris J. Analysis of curved optical waveguides by conformal transformation[J]. IEEE Journal of Quantum Electronics, 11, 75-83(1975).