Abstract

We investigated the dissipative solitons resonance in an ytterbium-doped fiber ring laser in which all the elements are polarization maintaining (PM). A semiconductor saturable absorber mirror was used as a mode-locker. The cavity included a normal dispersion single-mode fiber (SMF) and an anomalous dispersion photonic crystal fiber. The change of the length of the PM SMF allows the variation of the net-normal dispersion of the cavity in the range from 0.022 ps2 to 0.262 ps2. As the absolute value of the net-normal dispersion increases from 0.022 ps2 to 0.21 ps2, a square-shaped single pulse transformed to a single right-angle trapezoid-shaped pulse, and, at the dispersion of 0.262 ps2, to multiple right-angle trapezoid-shaped pulses, per round-trip.

© 2016 Optical Society of America

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References

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    [Crossref] [PubMed]
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    [Crossref]
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    [Crossref]
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    [Crossref]
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    [Crossref]
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    [Crossref]

2015 (5)

2014 (3)

2013 (3)

2012 (2)

2011 (4)

2010 (2)

2009 (1)

2008 (2)

N. Akhmediev, J. M. Soto-Crespo, and Ph. Grelu, “Roadmap to ultra-short record high-energy pulses out of laser oscillators,” Phys. Lett. A 372(17), 3124–3128 (2008).
[Crossref]

W. Chang, A. Ankiewicz, J. M. Soto-Crespo, and N. Akhmediev, “Dissipative soliton resonances,” Phys. Rev. A 78(2), 023830 (2008).
[Crossref]

1992 (2)

V. I. Matsas, T. P. Newson, D. J. Richardson, and D. N. Payne, “Self-starting passively mode-locked fiber ring soliton laser exploiting nonlinear polarization rotation,” Electron. Lett. 28(15), 1391–1393 (1992).
[Crossref]

V. I. Matsas, T. P. Newson, and M. N. Zervas, “Self-starting passively mode-locked fiber ring laser exploiting nonlinear polarization switching,” Opt. Commun. 92(1-3), 61–66 (1992).
[Crossref]

1991 (2)

I. N. Duling, “All-fiber ring soliton laser mode locked with a nonlinear mirror,” Opt. Lett. 16(8), 539–541 (1991).
[Crossref] [PubMed]

D. J. Richardson, R. I. Laming, D. N. Payne, M. W. Phillips, and V. J. Matsas, “320 fs soliton generation with passively mode-locked Erbium-fiber laser,” Electron. Lett. 27(9), 730–732 (1991).
[Crossref]

Akhmediev, N.

Ph. Grelu, W. Chang, A. Ankiewicz, J. M. Soto-Crespo, and N. Akhmediev, “Dissipative soliton resonance as a guideline for high-energy pulse laser oscillators,” J. Opt. Soc. Am. B 27(11), 2336–2341 (2010).
[Crossref]

W. Chang, A. Ankiewicz, J. M. Soto-Crespo, and N. Akhmediev, “Dissipative soliton resonances,” Phys. Rev. A 78(2), 023830 (2008).
[Crossref]

N. Akhmediev, J. M. Soto-Crespo, and Ph. Grelu, “Roadmap to ultra-short record high-energy pulses out of laser oscillators,” Phys. Lett. A 372(17), 3124–3128 (2008).
[Crossref]

Ankiewicz, A.

Cai, Z. R.

Cao, W. J.

Chang, W.

Chen, G.

Chen, J.

H. Yu, X. Wang, P. Zhou, X. Xu, and J. Chen, “High-Energy Square Pulses in a Mode-Locked Yb-Doped Fiber Laser Operating in DSR Region,” IEEE Photonics Technol. Lett. 27(7), 737–740 (2015).
[Crossref]

Cheng, Z.

Ding, E.

Duling, I. N.

Eken, K.

Grajales-Coutiño, R.

Grelu, P.

Grelu, Ph.

Ph. Grelu, W. Chang, A. Ankiewicz, J. M. Soto-Crespo, and N. Akhmediev, “Dissipative soliton resonance as a guideline for high-energy pulse laser oscillators,” J. Opt. Soc. Am. B 27(11), 2336–2341 (2010).
[Crossref]

N. Akhmediev, J. M. Soto-Crespo, and Ph. Grelu, “Roadmap to ultra-short record high-energy pulses out of laser oscillators,” Phys. Lett. A 372(17), 3124–3128 (2008).
[Crossref]

Gu, C.

Guo, B.

B. Guo, Y. Yao, Y. Yang, Y. Yuan, L. Jin, B. Yan, and J. Zhang, “Dual-wavelength rectangular pulse erbium-doped fiber laser based on topological insulator saturable absorber,” Photonics Res. 3(3), 94–99 (2015).
[Crossref]

Guo, Ch. Y.

J. H. Yang, Ch. Y. Guo, Sh. Ch. Ruan, D. Q. Ouyang, H. Q. Lin, Y. M. Wu, and R. H. Wen, “Observation of dissipative soliton resonance in a net-normal dispersion figure-of-eight fiber laser,” IEEE Photonics J. 5(3), 1500806 (2013).
[Crossref]

Han, H.

Han, M.

X. Li, S. Zhang, H. Han, M. Han, H. Zhang, L. Zhao, F. Wen, and Z. Yang, “Different polarization dynamic states in a vector Yb-doped fiber laser,” Opt. Express 23(8), 10747–10755 (2015).
[Crossref] [PubMed]

X. Li, Sh. Zhang, H. Zhang, M. Han, F. Wen, and Zh. Yang, “Highly efficient rectangular pulse emission in a mode-locked fiber laser,” IEEE Photonics Technol. Lett. 26(20), 2082–2085 (2014).
[Crossref]

Hernández-García, J. C.

Ibarra-Escamilla, B.

Ilday, F. Ö.

Jin, L.

B. Guo, Y. Yao, Y. Yang, Y. Yuan, L. Jin, B. Yan, and J. Zhang, “Dual-wavelength rectangular pulse erbium-doped fiber laser based on topological insulator saturable absorber,” Photonics Res. 3(3), 94–99 (2015).
[Crossref]

Krzempek, K.

Kutz, J. N.

Kuzin, E. A.

Laming, R. I.

D. J. Richardson, R. I. Laming, D. N. Payne, M. W. Phillips, and V. J. Matsas, “320 fs soliton generation with passively mode-locked Erbium-fiber laser,” Electron. Lett. 27(9), 730–732 (1991).
[Crossref]

Li, H.

Li, X.

X. Li, S. Zhang, H. Han, M. Han, H. Zhang, L. Zhao, F. Wen, and Z. Yang, “Different polarization dynamic states in a vector Yb-doped fiber laser,” Opt. Express 23(8), 10747–10755 (2015).
[Crossref] [PubMed]

X. Li, Sh. Zhang, H. Zhang, M. Han, F. Wen, and Zh. Yang, “Highly efficient rectangular pulse emission in a mode-locked fiber laser,” IEEE Photonics Technol. Lett. 26(20), 2082–2085 (2014).
[Crossref]

Liao, J. H.

Lin, H. Q.

J. H. Yang, Ch. Y. Guo, Sh. Ch. Ruan, D. Q. Ouyang, H. Q. Lin, Y. M. Wu, and R. H. Wen, “Observation of dissipative soliton resonance in a net-normal dispersion figure-of-eight fiber laser,” IEEE Photonics J. 5(3), 1500806 (2013).
[Crossref]

Lin, Z. B.

Liu, H.

Liu, L.

Liu, M.

Liu, X.

X. Liu, “Coexistence of strong and weak pulses in a fiber laser with largely anomalous dispersion,” Opt. Express 19(7), 5874–5887 (2011).
[Crossref] [PubMed]

X. Liu, “Pulse evolution without wave breaking in a strongly dissipative-dispersive laser system,” Phys. Rev. A 81(5), 053819 (2010).
[Crossref]

Luo, A. P.

Luo, Z. C.

Luo, Z. Ch.

Matsas, V. I.

V. I. Matsas, T. P. Newson, D. J. Richardson, and D. N. Payne, “Self-starting passively mode-locked fiber ring soliton laser exploiting nonlinear polarization rotation,” Electron. Lett. 28(15), 1391–1393 (1992).
[Crossref]

V. I. Matsas, T. P. Newson, and M. N. Zervas, “Self-starting passively mode-locked fiber ring laser exploiting nonlinear polarization switching,” Opt. Commun. 92(1-3), 61–66 (1992).
[Crossref]

Matsas, V. J.

D. J. Richardson, R. I. Laming, D. N. Payne, M. W. Phillips, and V. J. Matsas, “320 fs soliton generation with passively mode-locked Erbium-fiber laser,” Electron. Lett. 27(9), 730–732 (1991).
[Crossref]

Mei, L.

Ming, H.

Newson, T. P.

V. I. Matsas, T. P. Newson, and M. N. Zervas, “Self-starting passively mode-locked fiber ring laser exploiting nonlinear polarization switching,” Opt. Commun. 92(1-3), 61–66 (1992).
[Crossref]

V. I. Matsas, T. P. Newson, D. J. Richardson, and D. N. Payne, “Self-starting passively mode-locked fiber ring soliton laser exploiting nonlinear polarization rotation,” Electron. Lett. 28(15), 1391–1393 (1992).
[Crossref]

Ning, Q. Y.

Oktem, B.

Ouyang, D. Q.

J. H. Yang, Ch. Y. Guo, Sh. Ch. Ruan, D. Q. Ouyang, H. Q. Lin, Y. M. Wu, and R. H. Wen, “Observation of dissipative soliton resonance in a net-normal dispersion figure-of-eight fiber laser,” IEEE Photonics J. 5(3), 1500806 (2013).
[Crossref]

Özgören, K.

Payne, D. N.

V. I. Matsas, T. P. Newson, D. J. Richardson, and D. N. Payne, “Self-starting passively mode-locked fiber ring soliton laser exploiting nonlinear polarization rotation,” Electron. Lett. 28(15), 1391–1393 (1992).
[Crossref]

D. J. Richardson, R. I. Laming, D. N. Payne, M. W. Phillips, and V. J. Matsas, “320 fs soliton generation with passively mode-locked Erbium-fiber laser,” Electron. Lett. 27(9), 730–732 (1991).
[Crossref]

Phillips, M. W.

D. J. Richardson, R. I. Laming, D. N. Payne, M. W. Phillips, and V. J. Matsas, “320 fs soliton generation with passively mode-locked Erbium-fiber laser,” Electron. Lett. 27(9), 730–732 (1991).
[Crossref]

Pottiez, O.

Ren, J.

Richardson, D. J.

V. I. Matsas, T. P. Newson, D. J. Richardson, and D. N. Payne, “Self-starting passively mode-locked fiber ring soliton laser exploiting nonlinear polarization rotation,” Electron. Lett. 28(15), 1391–1393 (1992).
[Crossref]

D. J. Richardson, R. I. Laming, D. N. Payne, M. W. Phillips, and V. J. Matsas, “320 fs soliton generation with passively mode-locked Erbium-fiber laser,” Electron. Lett. 27(9), 730–732 (1991).
[Crossref]

Ruan, Sh. Ch.

J. H. Yang, Ch. Y. Guo, Sh. Ch. Ruan, D. Q. Ouyang, H. Q. Lin, Y. M. Wu, and R. H. Wen, “Observation of dissipative soliton resonance in a net-normal dispersion figure-of-eight fiber laser,” IEEE Photonics J. 5(3), 1500806 (2013).
[Crossref]

Shi, H.

Soto-Crespo, J. M.

Ph. Grelu, W. Chang, A. Ankiewicz, J. M. Soto-Crespo, and N. Akhmediev, “Dissipative soliton resonance as a guideline for high-energy pulse laser oscillators,” J. Opt. Soc. Am. B 27(11), 2336–2341 (2010).
[Crossref]

W. Chang, A. Ankiewicz, J. M. Soto-Crespo, and N. Akhmediev, “Dissipative soliton resonances,” Phys. Rev. A 78(2), 023830 (2008).
[Crossref]

N. Akhmediev, J. M. Soto-Crespo, and Ph. Grelu, “Roadmap to ultra-short record high-energy pulses out of laser oscillators,” Phys. Lett. A 372(17), 3124–3128 (2008).
[Crossref]

Sun, B.

Tang, D. Y.

Wang, A.

Wang, P.

Wang, S. K.

Wang, X.

H. Yu, X. Wang, P. Zhou, X. Xu, and J. Chen, “High-Energy Square Pulses in a Mode-Locked Yb-Doped Fiber Laser Operating in DSR Region,” IEEE Photonics Technol. Lett. 27(7), 737–740 (2015).
[Crossref]

Wen, F.

X. Li, S. Zhang, H. Han, M. Han, H. Zhang, L. Zhao, F. Wen, and Z. Yang, “Different polarization dynamic states in a vector Yb-doped fiber laser,” Opt. Express 23(8), 10747–10755 (2015).
[Crossref] [PubMed]

X. Li, Sh. Zhang, H. Zhang, M. Han, F. Wen, and Zh. Yang, “Highly efficient rectangular pulse emission in a mode-locked fiber laser,” IEEE Photonics Technol. Lett. 26(20), 2082–2085 (2014).
[Crossref]

Wen, R. H.

J. H. Yang, Ch. Y. Guo, Sh. Ch. Ruan, D. Q. Ouyang, H. Q. Lin, Y. M. Wu, and R. H. Wen, “Observation of dissipative soliton resonance in a net-normal dispersion figure-of-eight fiber laser,” IEEE Photonics J. 5(3), 1500806 (2013).
[Crossref]

Wu, X.

Wu, Y. M.

J. H. Yang, Ch. Y. Guo, Sh. Ch. Ruan, D. Q. Ouyang, H. Q. Lin, Y. M. Wu, and R. H. Wen, “Observation of dissipative soliton resonance in a net-normal dispersion figure-of-eight fiber laser,” IEEE Photonics J. 5(3), 1500806 (2013).
[Crossref]

Xu, L.

Xu, S. H.

Xu, W. C.

Xu, W. Ch.

Xu, X.

H. Yu, X. Wang, P. Zhou, X. Xu, and J. Chen, “High-Energy Square Pulses in a Mode-Locked Yb-Doped Fiber Laser Operating in DSR Region,” IEEE Photonics Technol. Lett. 27(7), 737–740 (2015).
[Crossref]

Yan, B.

B. Guo, Y. Yao, Y. Yang, Y. Yuan, L. Jin, B. Yan, and J. Zhang, “Dual-wavelength rectangular pulse erbium-doped fiber laser based on topological insulator saturable absorber,” Photonics Res. 3(3), 94–99 (2015).
[Crossref]

Yang, J. H.

J. H. Yang, Ch. Y. Guo, Sh. Ch. Ruan, D. Q. Ouyang, H. Q. Lin, Y. M. Wu, and R. H. Wen, “Observation of dissipative soliton resonance in a net-normal dispersion figure-of-eight fiber laser,” IEEE Photonics J. 5(3), 1500806 (2013).
[Crossref]

Yang, Q. H.

Yang, Y.

B. Guo, Y. Yao, Y. Yang, Y. Yuan, L. Jin, B. Yan, and J. Zhang, “Dual-wavelength rectangular pulse erbium-doped fiber laser based on topological insulator saturable absorber,” Photonics Res. 3(3), 94–99 (2015).
[Crossref]

Yang, Z.

Yang, Z. M.

Yang, Zh.

X. Li, Sh. Zhang, H. Zhang, M. Han, F. Wen, and Zh. Yang, “Highly efficient rectangular pulse emission in a mode-locked fiber laser,” IEEE Photonics Technol. Lett. 26(20), 2082–2085 (2014).
[Crossref]

Yao, Y.

B. Guo, Y. Yao, Y. Yang, Y. Yuan, L. Jin, B. Yan, and J. Zhang, “Dual-wavelength rectangular pulse erbium-doped fiber laser based on topological insulator saturable absorber,” Photonics Res. 3(3), 94–99 (2015).
[Crossref]

Yilmaz, S.

Yu, H.

H. Yu, X. Wang, P. Zhou, X. Xu, and J. Chen, “High-Energy Square Pulses in a Mode-Locked Yb-Doped Fiber Laser Operating in DSR Region,” IEEE Photonics Technol. Lett. 27(7), 737–740 (2015).
[Crossref]

Yu, W.

Yuan, Y.

B. Guo, Y. Yao, Y. Yang, Y. Yuan, L. Jin, B. Yan, and J. Zhang, “Dual-wavelength rectangular pulse erbium-doped fiber laser based on topological insulator saturable absorber,” Photonics Res. 3(3), 94–99 (2015).
[Crossref]

Zervas, M. N.

V. I. Matsas, T. P. Newson, and M. N. Zervas, “Self-starting passively mode-locked fiber ring laser exploiting nonlinear polarization switching,” Opt. Commun. 92(1-3), 61–66 (1992).
[Crossref]

Zhang, H.

Zhang, J.

B. Guo, Y. Yao, Y. Yang, Y. Yuan, L. Jin, B. Yan, and J. Zhang, “Dual-wavelength rectangular pulse erbium-doped fiber laser based on topological insulator saturable absorber,” Photonics Res. 3(3), 94–99 (2015).
[Crossref]

Zhang, S.

Zhang, Sh.

X. Li, Sh. Zhang, H. Zhang, M. Han, F. Wen, and Zh. Yang, “Highly efficient rectangular pulse emission in a mode-locked fiber laser,” IEEE Photonics Technol. Lett. 26(20), 2082–2085 (2014).
[Crossref]

Zhang, X.

Zhao, L.

Zhao, L. M.

Zhao, N.

Zheng, X. W.

Zhou, P.

H. Yu, X. Wang, P. Zhou, X. Xu, and J. Chen, “High-Energy Square Pulses in a Mode-Locked Yb-Doped Fiber Laser Operating in DSR Region,” IEEE Photonics Technol. Lett. 27(7), 737–740 (2015).
[Crossref]

Appl. Opt. (1)

Electron. Lett. (2)

D. J. Richardson, R. I. Laming, D. N. Payne, M. W. Phillips, and V. J. Matsas, “320 fs soliton generation with passively mode-locked Erbium-fiber laser,” Electron. Lett. 27(9), 730–732 (1991).
[Crossref]

V. I. Matsas, T. P. Newson, D. J. Richardson, and D. N. Payne, “Self-starting passively mode-locked fiber ring soliton laser exploiting nonlinear polarization rotation,” Electron. Lett. 28(15), 1391–1393 (1992).
[Crossref]

IEEE Photonics J. (1)

J. H. Yang, Ch. Y. Guo, Sh. Ch. Ruan, D. Q. Ouyang, H. Q. Lin, Y. M. Wu, and R. H. Wen, “Observation of dissipative soliton resonance in a net-normal dispersion figure-of-eight fiber laser,” IEEE Photonics J. 5(3), 1500806 (2013).
[Crossref]

IEEE Photonics Technol. Lett. (2)

X. Li, Sh. Zhang, H. Zhang, M. Han, F. Wen, and Zh. Yang, “Highly efficient rectangular pulse emission in a mode-locked fiber laser,” IEEE Photonics Technol. Lett. 26(20), 2082–2085 (2014).
[Crossref]

H. Yu, X. Wang, P. Zhou, X. Xu, and J. Chen, “High-Energy Square Pulses in a Mode-Locked Yb-Doped Fiber Laser Operating in DSR Region,” IEEE Photonics Technol. Lett. 27(7), 737–740 (2015).
[Crossref]

J. Opt. Soc. Am. B (1)

Opt. Commun. (1)

V. I. Matsas, T. P. Newson, and M. N. Zervas, “Self-starting passively mode-locked fiber ring laser exploiting nonlinear polarization switching,” Opt. Commun. 92(1-3), 61–66 (1992).
[Crossref]

Opt. Express (9)

X. Liu, “Coexistence of strong and weak pulses in a fiber laser with largely anomalous dispersion,” Opt. Express 19(7), 5874–5887 (2011).
[Crossref] [PubMed]

X. Wu, D. Y. Tang, H. Zhang, and L. M. Zhao, “Dissipative soliton resonance in an all-normal-dispersion erbium-doped fiber laser,” Opt. Express 17(7), 5580–5584 (2009).
[Crossref] [PubMed]

K. Özgören, B. Oktem, S. Yilmaz, F. Ö. Ilday, and K. Eken, “83 W, 3.1 MHz, square-shaped, 1 ns-pulsed all-fiber-integrated laser for micromachining,” Opt. Express 19(18), 17647–17652 (2011).
[Crossref] [PubMed]

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[Crossref]

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[Crossref]

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[Crossref]

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Figures (8)

Fig. 1
Fig. 1 Experimental setup; inset shows the PM PCF used in the experiments.
Fig. 2
Fig. 2 (a) RF spectrum of the light pulses for the initial configuration. (b) Fundamental RF peak at the highest available resolution.
Fig. 3
Fig. 3 (a) Oscilloscope traces of pulses for the initial configuration. (b) Pulse duration vs. pump power; the solid line presents the linear fit.
Fig. 4
Fig. 4 The dependence of the output average power on the pulse duration.
Fig. 5
Fig. 5 (a) Experimentally measured spectrum of the light pulse (black line) together with its corresponding Gaussian fit (red line). (b) Dependence of the spectral bandwidth on the pump power: solid dots – experimental data, line – the polynomial fit of the second order.
Fig. 6
Fig. 6 Autocorrelation trace for a 68 ps pulse width square-shaped DSR light pulse.
Fig. 7
Fig. 7 Oscilloscope traces of pulses for the configuration with 5.2-m of passive fiber inserted to the cavity (a) and with 7.2-m (b).
Fig. 8
Fig. 8 Experimentally measured dependencies of the pulse duration on the pump power together with their linear fits.

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