High-order mode lasing in all-FMF laser cavities

Teng Wang; Ao Yang; Fan Shi; Yiping Huang; Jianxiang Wen; Xianglong Zeng

doi:doi:10.1364/PRJ.7.000042

Photonics Research, 2019, 7 (1): 01000042, Published Online: Feb. 21, 2019

High-order mode lasing in all-FMF laser cavities Download： 721次

Teng Wang Ao Yang Fan Shi Yiping Huang Jianxiang Wen Xianglong Zeng ^*

Author Affiliations

Key Laboratory of Specialty Fiber Optics and Optical Access Networks, Joint International Research Laboratory of Specialty Fiber Optics and Advanced Communication, Shanghai Institute for Advanced Communication and Data Science, Shanghai University, Shanghai 200444, China

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Teng Wang, Ao Yang, Fan Shi, Yiping Huang, Jianxiang Wen, Xianglong Zeng. High-order mode lasing in all-FMF laser cavities[J]. Photonics Research, 2019, 7(1): 01000042.

References

[1] D. J. Richardson, J. M. Fini, L. E. Nelson. Space-division multiplexing in optical fibres. Nat. Photonics, 2013, 7: 354-362.

[2] H. Chen, C. Jin, B. Huang, N. Fontaine, R. Ryf, K. Shang, N. Grégoire, S. Morency, R. J. Essiambre, G. Li. Integrated cladding-pumped multicore few-mode erbium-doped fibre amplifier for space-division-multiplexed communications. Nat. Photonics, 2016, 10: 529-533.

[3] J. V. Weerdenburg, R. Ryf, J. C. Alvarado-Zacarias, R. A. Alvarez-Aguirre, N. K. Fontaine, H. Chen, R. A. Correa, Y. Sun, L. Gruner-Nielsen, R. Jensen. 138 Tbit/s mode- and wavelength multiplexed transmission over 6-mode graded-index fiber. J. Lightwave Technol., 2018, 36: 1369-1374.

[4] T. Feng, D. Ding, F. Yan, Z. Zhao, H. Su, X. S. Yao. Widely tunable single-/dual-wavelength fiber lasers with ultra-narrow linewidth and high OSNR using high quality passive subring cavity and novel tuning method. Opt. Express, 2016, 24: 19760-19768.

[5] Q. Zhang, X. Zeng, F. Pang, M. Wang, T. Wang. Switchable multiwavelength fiber laser by using a compact in-fiber Mach-Zehnder interferometer. J. Opt., 2012, 14: 045403.

[6] X. Liu, L. Zhan, S. Luo, Y. Wang, Q. Shen. Individually switchable and widely tunable multiwavelength erbium-doped fiber laser based on cascaded mismatching long-period fiber gratings. J. Lightwave Technol., 2011, 29: 3319-3326.

[7] T. Wang, F. Wang, F. Shi, F. Pang, S. Huang, T. Wang, X. Zeng. Generation of femtosecond optical vortex beams in all-fiber mode-locked fiber laser using mode selective coupler. J. Lightwave Technol., 2017, 35: 2161-2166.

[8] K. Wei, W. Zhang, L. Huang, D. Mao, F. Gao, T. Mei, J. Zhao. Generation of cylindrical vector beams and optical vortex by two acoustically induced fiber gratings with orthogonal vibration directions. Opt. Express, 2017, 25: 2733-2741.

[9] W. Zhang, L. Huang, K. Wei, P. Li, B. Jiang, D. Mao, F. Gao, T. Mei, G. Zhang, J. Zhao. High-order optical vortex generation in a few-mode fiber via cascaded acoustically driven vector mode conversion. Opt. Lett., 2016, 41: 5082-5085.

[10] J. Wang. Advances in communications using optical vortices. Photon. Res., 2016, 4: B14-B28.

[11] F. Wang, F. Shi, T. Wang, F. Pang, T. Wang, X. Zeng. Method of generating femtosecond cylindrical vector beams using broadband mode converter. IEEE Photon. Technol. Lett., 2017, 29: 747-750.

[12] Y. Shen, G. Ren, Y. Yang, S. Yao, Y. Wu, Y. Jiang, Y. Xu, W. Jin, B. Zhu, S. Jian. Switchable narrow linewidth fiber laser with LP₁₁ transverse mode output. Opt. Laser Technol., 2018, 98: 1-6.

[13] WangT.WangF.ShiF.PangF.HuangS.WangT.ZengX., “All-fiber mode-locked vortex laser with a broadband mode coupler,” in Optical Fiber Communications Conference and Exhibition (OFC) (Optical Society of America, 2017), paper Tu3J.2.

[14] D. Mao, Z. He, H. Lu, M. Li, W. Zhang, X. Cui, B. Jiang, J. Zhao. All-fiber radially/azimuthally polarized lasers based on mode coupling of tapered fibers. Opt. Lett., 2018, 43: 1590-1593.

[15] Y. Huang, F. Shi, T. Wang, X. Liu, X. Zeng, F. Pang, T. Wang, P. Zhou. High-order mode Yb-doped fiber lasers based on mode-selective couplers. Opt. Express, 2018, 26: 19171-19181.

[16] H. Wan, J. Wang, Z. Zhang, J. Wang, S. Ruan, L. Zhang. Passively mode-locked ytterbium-doped fiber laser with cylindrical vector beam generation based on mode selective coupler. J. Lightwave Technol., 2018, 36: 3403-3407.

[17] Y. Zhao, T. Wang, C. Mou, Z. Yan, Y. Liu, T. Wang. All-fiber vortex laser generated with few-mode long-period gratings. IEEE Photon. Technol. Lett., 2018, 30: 752-755.

[18] Y. Zhou, K. Yan, R. S. Chen, C. Gu, L. X. Xu, A. T. Wang, Q. Zhan. Resonance efficiency enhancement for cylindrical vector fiber laser with optically induced long period grating. Appl. Phys. Lett., 2017, 110: 161104.

[19] A. Wang, B. Sun, C. Gu, D. Chung, G. Chen, L. Xu, Q. Zhan. Mode-locked all-fiber laser producing radially polarized rectangular pulses. Opt. Lett., 2015, 40: 1691-1694.

[20] X. Zhang, W. Zhang, C. Li, D. Mao, F. Gao, L. Huang, D. Yang, T. Mei, J. Zhao. All-fiber cylindrical vector beams laser based on an acoustically-induced fiber grating. J. Opt., 2018, 20: 075608.

[21] R. Chen, F. Sun, J. Yao, J. Wang, H. Ming, A. Wang, Q. Zhan. Mode-locked all-fiber laser generating optical vortex pulses with tunable repetition rate. Appl. Phys. Lett., 2018, 112: 261103.

[22] J. Song, H. Xu, H. Wu, L. Huang, J. Xu, H. Zhang, P. Zhou. High power narrow linewidth LP₁₁ mode fiber laser using mode-selective FBGs. Laser Phys. Lett., 2018, 15: 115101.

[23] D. Mao, T. Feng, W. Zhang, H. Lu, Y. Jiang, P. Li, B. Jiang, Z. Sun, J. Zhao. Ultrafast all-fiber based cylindrical-vector beam laser. Appl. Phys. Lett., 2017, 110: 021107.

[24] J. Zheng, A. Yang, T. Wang, N. Cao, M. Liu, F. Pang, T. Wang, X. Zeng. Switchable wavelength vortex beams based on polarization-dependent micro-knot resonator. Photon. Res., 2018, 6: 396-402.

[25] Z. Zhang, Y. Cai, J. Wang, H. Wan, L. Zhang. Switchable dual-wavelength cylindrical vector beam generation from a passively mode-locked fiber laser based on carbon nanotubes. IEEE J. Sel. Top. Quantum Electron., 2018, 24: 1100906.

[26] S. Yao, G. Ren, Y. Yang, Y. Shen, Y. Jiang, S. Xiao, S. Jian. Few-mode fiber Bragg grating-based multi-wavelength fiber laser with tunable orbital angular momentum beam output. Laser Phys. Lett., 2018, 15: 095001.

[27] L. G. Wright, D. N. Christodoulides, F. W. Wise. Spatiotemporal mode-locking in multimode fiber lasers. Science, 2017, 358: 94-97.

[28] T. Wang, F. Shi, Y. Huang, J. Wen, Z. Luo, F. Pang, T. Wang, X. Zeng. High-order mode direct oscillation of few-mode fiber laser for high-quality cylindrical vector beams. Opt. Express, 2018, 26: 11850-11858.

[29] H. Qin, X. Xiao, P. Wang, C. Yang. Observation of soliton molecules in a spatiotemporal mode-locked multimode fiber laser. Opt. Lett., 2018, 43: 1982-1985.

[30] G. D’Aguanno, C. R. Menyuk. Nonlinear mode coupling in whispering-gallery-mode resonators. Phys. Rev. A, 2016, 93: 043820.

[31] M. N. Zervas, C. A. Codemard. High power fiber lasers: a review. IEEE J. Sel. Top. Quantum Electron., 2014, 20: 219-241.

[32] Y. Jiang, G. Ren, Y. Lian, B. Zhu, W. Jin, S. Jian. Tunable orbital angular momentum generation in optical fibers. Opt. Lett., 2016, 41: 3535-3538.

[33] Y. Shen, G. Ren, Y. Yang, S. Yao, S. Xiao, Y. Jiang, Y. Xu, Y. Wu, W. Jin, S. Jian. Generation of the tunable second-order optical vortex beams in narrow linewidth fiber laser. IEEE Photon. Technol. Lett., 2017, 29: 1659-1662.

[34] J. Liu, Y. Chen, Y. Li, H. Zhang, S. Zheng, S. Xu. Switchable dual-wavelength Q-switched fiber laser using multilayer black phosphorus as a saturable absorber. Photon. Res., 2018, 6: 198-203.

[35] F. Takahashi, K. Miyamoto, H. Hidai, K. Yamane, R. Morita, T. Omatsu. Picosecond optical vortex pulse illumination forms a monocrystalline silicon needle. Sci. Rep., 2016, 6: 21738.

[36] J. Wen, X. He, J. Xing, J. Yang, F. Pang, X. Zeng, Z. Chen, T. Wang. All-fiber OAM amplifier with high purity and broadband spectrum gain based on fused taper vortex-beam coupler. IEEE Photon. J., 2018, 10: 7105308.

[37] S. Li, Q. Mo, X. Hu, C. Du, J. Wang. Controllable all-fiber orbital angular momentum mode converter. Opt. Lett., 2015, 40: 4376-4379.

[38] R. Ismaeel, T. Lee, B. Oduro, Y. Jung, G. Brambilla. All-fiber fused directional coupler for highly efficient spatial mode conversion. Opt. Express, 2014, 22: 11610-11619.

[39] Z. Luo, J. Liu, H. Wang, A. Luo, W. Xu. Wide-band tunable passively Q-switched all-fiber ring laser based on nonlinear polarization rotation technique. Laser Phys., 2012, 22: 203-206.

[40] M. Chernysheva, A. Bednyakova, M. Al Araimi, R. C. Howe, G. Hu, T. Hasan, A. Gambetta, G. Galzerano, M. Rümmeli, A. Rozhin. Double-wall carbon nanotube hybrid mode-locker in Tm-doped fibre laser: a novel mechanism for robust bound-state solitons generation. Sci. Rep., 2017, 7: 44314.

[41] Y. Zhao, Y. Liu, L. Zhang, C. Zhang, J. Wen, T. Wang. Mode converter based on the long-period fiber gratings written in the two-mode fiber. Opt. Express, 2016, 24: 6186-6195.

[42] D. Lin, N. Baktash, M. Berendt, M. Beresna, P. Kazansky, W. Clarkson, S. Alam, D. Richardson. Radially and azimuthally polarized nanosecond Yb-doped fiber MOPA system incorporating temporal shaping. Opt. Lett., 2017, 42: 1740-1743.

Teng Wang, Ao Yang, Fan Shi, Yiping Huang, Jianxiang Wen, Xianglong Zeng. High-order mode lasing in all-FMF laser cavities[J]. Photonics Research, 2019, 7(1): 01000042.

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