Design of polarization-maintaining bow-tie elliptical-core few-mode fiber for mode-division-multiplexing

Yingjuan Ci; Fang Ren; Jinyu Zhang; Jingjing Niu; Xiao Lei; Yanfei Zhang; Xiaohui Wang

doi:10.11884/HPLPB202234.220105

Journals >High Power Laser and Particle Beams >Volume 34 >Issue 11 >Page 111006 > Article

High Power Laser and Particle Beams
Vol. 34, Issue 11, 111006 (2022)

Design of polarization-maintaining bow-tie elliptical-core few-mode fiber for mode-division-multiplexing

Yingjuan Ci¹, Fang Ren^1、2、*, Jinyu Zhang¹, Jingjing Niu¹, Xiao Lei¹, Yanfei Zhang¹, and Xiaohui Wang¹

Author Affiliations

¹School of Computer and Communication Engineering, University of Science and Technology Beijing, Beijing 100083, China

²Beijing Engineering and Technology Research Center for Convergence Network and Ubiquitous Service, Beijing 100083, China

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DOI: 10.11884/HPLPB202234.220105 Cite this Article

Yingjuan Ci, Fang Ren, Jinyu Zhang, Jingjing Niu, Xiao Lei, Yanfei Zhang, Xiaohui Wang. Design of polarization-maintaining bow-tie elliptical-core few-mode fiber for mode-division-multiplexing[J]. High Power Laser and Particle Beams, 2022, 34(11): 111006 Copy Citation Text

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Fig. 1. Schematic diagram of fiber structure

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Fig. 2. Variations of the optical performance as a function of core size

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Fig. 3. Variation of number of supported modes and Δn_{eff, min} as a function of ∆

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Fig. 4. Variation of the optical performance with stress-applying area parameters

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Fig. 5. Variation of the optical performance with stress-applying area parameters

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Fig. 6. Mode field distributions with electric vectors (white arrows) of the proposed bow-tie elliptical-core PM-FMF

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Fig. 7. Birefringence properties of optical fibers

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Fig. 8. Bending loss characteristics of optical fibers

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Fig. 9. Variations of the optical performance as a function of wavelength

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Fig. 10. Variations of DMD as a function of wavelength

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mode	n_eff	Δn_eff/10⁻⁴	A_eff/µm²	δ_DMD/(ns/km)
HG₀₀^x	1.4683	4.803	90.96	1.727
HG₀₀^y	1.4678	18.878	90.88	−7.946
HG₁₀^x	1.4659	4.799	87.01	1.776
HG₁₀^y	1.4654	10.450	86.78	−4.804
HG₀₁^x	1.4644	4.932	80.48	1.627
HG₀₁^y	1.4639	14.081	80.72	−7.396
HG₂₀^x	1.4625	4.640	84.71	1.847
HG₂₀^y	1.4620	9.198	84.08	−4.247
HG₁₁^x	1.4611	5.033	87.21	1.684
HG₁₁^y	1.4606	23.286	87.53	−6.646
HG₀₂^x	1.4583	2.174	73.55	−3.479
HG₃₀^x	1.4580	2.888	85.34	5.077
HG₀₂^y	1.4578	1.612	74.48	−3.209
HG₃₀^y	1.4576	6.842	84.59	−3.450
HG₂₁^x	1.4569	4.931	89.15	1.768
HG₂₁^y	1.4564	25.223	89.04	−5.824
HG₁₂^x	1.4539	5.137	85.89	1.672
HG₁₂^y	1.4534	6.797	87.06	−8.065
HG₄₀^x	1.4527	4.354	88.85	2.089
HG₄₀^y	1.4523	4.015	88.74	−2.916
HG₃₁^x	1.4519	4.709	92.05	1.999
HG₃₁^y	1.4514	10.421	90.67	3.810
HG₀₃^x	1.4503	5.037	75.36	1.989
HG₀₃^y	1.4498	11.703	78.29	−9.013
HG₂₂^x	1.4487	4.956	93.59	1.924
HG₂₂^y	1.4482	15.794	94.47	−11.048
HG₅₀^x	1.4466	4.101	94.89	2.184
HG₅₀^y	1.4462	1.624	108.82	−2.394
HG₄₁^x	1.4460	4.353	110.14	1.893
HG₄₁^y	1.4456	2.601	94.49	15.396
HG₁₃^x	1.4453	4.811	105.19	3.261
HG₁₃^y	1.4448	−	110.30	−

Table 1. n_eff, Δn_eff, A_eff and DMD of the 32 eigenmodes for bow-tie elliptical-core PM-FMF at 1550 nm

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