[1] N DENG, L ZONG, H JIANG et al. Challenges and enabling technologies for multi-band WDM optical networks. Journal of Lightwave Technology, 40, 3385-3394(2022).
[2] Ziyang MA, Qiongqiong WU, Qihua LI et al. Ultra-dense wavelength division multiplexing passive optical network. Laser & Optoelectronics Progress, 58, 0500006(2021).
[3] N ALSOWAIDI, T ELTAIF, M R MOKHTAR. Suppression of inter and intra channel four wave mixing effects in optical CDMA over DWDM hybrid system. Chinese Optics, 12, 156-166(2019).
[4] A SALEEM, Y XU, S WANG. Research of fiber nonlinear effects in WDM-PON based 5G fronthaul networks. Journal of Nonlinear Optical Physics & Materials, 32, 2350018(2023).
[5] G ITU-T Recommendation(2010).
[6] S E KARLIK. Analysis of the four-wave mixing impact on the most heavily affected channels of dense and ultra-dense wavelength division multiplexing systems using non-zero dispersion shifted fibers. Optik, 127, 7469-7486(2016).
[7] Jindong WU, Qingguo LI, Wenwen WU et al. Study of novel fabrication process for non-zero dispersion-shifted fibers. Acta Optica Sinica, 31, 0806008(2011).
[8] Yu CHENG, Xiujian ZHAO. The design and properties of G.656 optical fiber waveguide design. Journal of Wuhan University of Technology (Materials Science Edition), 22, 70-73(2007).
[9] EID M , V SORATHIYA, S LAVADIYA et al. Technical specifications and spectral performance characteristics of Dispersion Flattened Fiber (DFF) in optical fiber systems. Journal of Optical Communications, 000010151520210063(2021).
[10] Xiao WANG, Longyang ZHU, Hongjun ZHENG et al. A dispersion flattened fiber front-haul transmission system with high bitrate signal at low input optical power. Optoelectronics Letters, 15, 31-34(2019).
[11] S ZHENG, Y LIU, G CHANG. Design and analysis of three-layer-core optical fiber. Optical Engineering, 57, 036111(2018).
[12] Xiaoping ZHANG, Xin WANG. The study of chromatic dispersion and chromatic dispersion slope of WⅠ-and WⅡ-type triple-clad single-mode fibers. Optics & Laser Technology, 37, 167-172(2005).
[13] S SELVENDRAN, S AVANINATHAN. New refractive index profiles of dispersion-flattened highly nonlinear fibers for future all-optical signal processing in WDM optical networks. Photonic Network Communication, 33, 217-230(2016).
[14] F E DURAK, S A SADIK, K BOUMEDIENE et al. Characterization of four wave mixing effect in dense wavelength division multiplexing systems, 1-4(2020).
[15] T HOSHIDA, V CURRI, L GALDINO et al. Ultrawideband systems and networks: Beyond C+L-band. Proceedings of the IEEE, 110, 1725-1741(2022).
[18] S GARCIA, I GASULLA. Universal characteristic equation for multi-layer optical fibers. IEEE Journal of Selected Topics in Quantum Electronics, 26, 1-11(2020).
[19] B BEHERA, M N MOHANTY. Design of bend-limited large-mode area dispersion shifted few-mode fiber for fast communication, 277-281(2019).
[20] Yajie WANG, Shanglin HOU, Caijian XIE et al. Bend-resistant stress-type segmented cladding large-mode-area single-mode fibers. Applied Optics, 62, 2218-2226(2023).
[21] S MAKOUEI. Characteristics comparison of the ZDSFs based on the triangular graded index and step index single-mode optical fibers. Optics Communications, 291, 202-206(2013).
[22] V PALODIYA, S K RAGHUWANSHI. Design and parametric study of depressed core optical fiber. Procedia Computer Science, 46, 1385-1392(2015).
[23] V V DEMIDOV, E V TER-NERSESYANTS, A V BOURDINE et al. Methods and technique of manufacturing silica graded-index fibers with a large central defect of the refractive index profile for fiber-optic sensors based on few-mode effects, 1034218(2017).
[24] V PALODIYA, S K RAGHUWANSHI. Comparative study of triple-clad dispersion-shifted, dispersion-flattened and dispersion-compensated fiber for broadband optical network application. Journal of Optical Communications, 37, 193-198(2015).
[25] Yining ZHANG, Yudong LIAN. Design and analysis of a large mode field area and low bending loss multi-cladding fiber with comb-index core and gradient-refractive index ring. Sensors, 23, 5085(2023).
[26] Y TONG, S CHEN, H TIAN. A bend-resistant low bending loss and large mode area two-layer core single-mode fiber with gradient refractive index ring and multi-trench. Optical Fiber Technology, 235-243(2018).
[27] Shengfei SHE, Bo LIU, Chang CHANG et al. Characterization and properties of large-core fluorine-doped fibers based on depressed inner cladding design. Acta Photonica Sinica, 48, 1148013(2019).
[28] Jianjiang ZHA, Qiang CHEN, Xinglin LAN et al. Design and fabrication of novel large effective area non-zero dispersion shifted optical fiber based on outside vapor deposition. Chinese Journal of Lasers, 49, 2306004(2022).
