All-Solid Dual-Concentric-Core Microstructure Fiber for Dispersion Compensation

Wei Wang; Yuwei Qu; Yuting Zuo; Junqi Wang; Fanchao Meng; Chunlan Zhang; Ying Han; Lantian Hou

doi:10.3788/AOS201737.0806002

Journals >Acta Optica Sinica >Volume 37 >Issue 8 >Page 0806002 > Article

Acta Optica Sinica
Vol. 37, Issue 8, 0806002 (2017)

All-Solid Dual-Concentric-Core Microstructure Fiber for Dispersion Compensation

Wei Wang^1、2、*, Yuwei Qu^1、2, Yuting Zuo^1、2, Junqi Wang^1、2, Fanchao Meng^1、2, Chunlan Zhang^1、2, Ying Han^1、2, and Lantian Hou^1、2

Author Affiliations

¹ 1 School of Information Science and Engineering, Yanshan University, Qinhuangdao, Hebei 066004, China;

² 2 Key Laboratory for Special Fiber and Fiber Sensor of Hebei Province, Qinhuangdao, Hebei 066004, China

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DOI: 10.3788/AOS201737.0806002 Cite this Article Set citation alerts

Wei Wang, Yuwei Qu, Yuting Zuo, Junqi Wang, Fanchao Meng, Chunlan Zhang, Ying Han, Lantian Hou. All-Solid Dual-Concentric-Core Microstructure Fiber for Dispersion Compensation[J]. Acta Optica Sinica, 2017, 37(8): 0806002 Copy Citation Text

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$Cross-section structure and equivalent refractive index distribution of all-solid dual-concentric-core microstructure fiber$

Fig. 1. Cross-section structure and equivalent refractive index distribution of all-solid dual-concentric-core microstructure fiber

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$Variations in effective refractive index and dispersion of mode with wavelength (illustration is mode field distributions of two modes under different wavelengths)$

Fig. 2. Variations in effective refractive index and dispersion of mode with wavelength (illustration is mode field distributions of two modes under different wavelengths)

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$(a) Variation in effective refractive index of fundamental mode withn1; (b) variation in dispersion withn1; (c) variation in dispersion withr1$

Fig. 3. (a) Variation in effective refractive index of fundamental mode with n1 ; (b) variation in dispersion with n1 ; (c) variation in dispersion with r1

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$(a) Variation in effective refractive index of fundamental mode withn2; (b) variation in dispersion withn2; (c) variation in dispersion withr2$

Fig. 4. (a) Variation in effective refractive index of fundamental mode with n2 ; (b) variation in dispersion with n2 ; (c) variation in dispersion with r2

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$(a) Variation in effective refractive index of fundamental mode withn3; (b) variation in dispersion withn3; (c) variation in dispersion withr3$

Fig. 5. (a) Variation in effective refractive index of fundamental mode with n3 ; (b) variation in dispersion with n3 ; (c) variation in dispersion with r3

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$(a) Variation in effective refractive index of fundamental mode withΛ; (b) variation in dispersion withΛ$

Fig. 6. (a) Variation in effective refractive index of fundamental mode with Λ ; (b) variation in dispersion with Λ

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Fig. 7. (a) Variation in dispersion with wavelength when medium column radius of fiber 1 produces ±3% distortion; (b) variation in dispersion of fiber 2 in C band with wavelength and residual dispersion after compensation

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