Abstract

We experimentally demonstrate the generation of dissipative soliton resonance (DSR) in a passively mode-locked Bi-doped fiber ring laser based on nonlinear polarization rotation (NPR) technique. The DSR with the central wavelength of 1169.5 nm has a repetition rate of 343.7 kHz. By purely increasing the pump power, the DSR evolves from Gaussian shape to rectangular shape with the duration extending from 2.1 ns to 13.1 ns, while keeping the pulse amplitude and the 3-dB spectrum bandwidth almost constant. The single-pulse energy reaches 24.82 nJ. Furthermore, we construct a lumped model to reproduce the mode-locking process and the traits of the DSR pulse. The obtained results indicate that it could achieve higher pulse energy in mode-locked Bi-doped fiber laser by generating DSR.

© 2017 Optical Society of America

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2016 (3)

T. Noronen, S. Firstov, E. Dianov, and O. G. Okhotnikov, “1700 nm dispersion managed mode-locked bismuth fiber laser,” Sci. Rep. 6(1), 24876 (2016).
[Crossref] [PubMed]

R. I. Woodward and E. J. R. Kelleher, “Dark solitons in laser radiation build-up dynamics,” Phys. Rev. E Stat. Nonlin. Soft Matter Phys. 93(3), 032221 (2016).
[Crossref] [PubMed]

Y. Q. Huang, Y. L. Qi, Z. C. Luo, A. P. Luo, and W. C. Xu, “Versatile patterns of multiple rectangular noise-like pulses in a fiber laser,” Opt. Express 24(7), 7356–7363 (2016).
[Crossref] [PubMed]

2015 (5)

2014 (2)

X. W. Zheng, Z. C. Luo, H. Liu, N. Zhao, Q. Y. Ning, M. Liu, X. H. Feng, X. B. Xing, A. P. Luo, and W. C. Xu, “High-energy noise-like rectangular pulse in a passively mode-locked figure-eight fiber laser,” Appl. Phys. Express 7(4), 042701 (2014).
[Crossref]

H. Lin, C. Guo, S. Ruan, and J. Yang, “Dissipative soliton resonance in an all normal-dispersion Yb-doped figure-eight fibre laser with tunable output,” Laser Phys. Lett. 11(8), 085102 (2014).
[Crossref]

2013 (3)

2012 (2)

2011 (1)

A. P. Luo, Z. C. Luo, W. C. Xu, V. V. Dvoyrin, V. M. Mashinsky, and E. M. Dianov, “Tunable and switchable dual-wavelength passively mode-locked Bi-doped all-fiber ring laser based on nonlinear polarization rotation,” Laser Phys. Lett. 8(8), 601–605 (2011).
[Crossref]

2010 (4)

E. J. R. Kelleher, J. C. Travers, Z. Sun, A. C. Ferrari, K. M. Golant, S. V. Popov, and J. R. Taylor, “Bismuth fiber integrated laser mode-locked by carbon nanotubes,” Laser Phys. Lett. 7(11), 790–794 (2010).
[Crossref]

X. M. Liu, “Mechanism of high-energy pulse generation without wave breaking in mode-locked fiber lasers,” Phys. Rev. A 82(5), 053808 (2010).
[Crossref]

S. Kivistö, J. Puustinen, M. Guina, R. Herda, S. Marcinkevicius, E. M. Dianov, and O. G. Okhotnikov, “Pulse dynamics of a passively mode-locked Bi-doped fiber laser,” Opt. Express 18(2), 1041–1048 (2010).
[Crossref] [PubMed]

P. 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]

2009 (5)

W. Chang, A. Ankiewicz, J. M. Soto-Crespo, and N. Akhmediev, “Dissipative soliton resonances in the anomalous dispersion regime,” Phys. Rev. A 79(3), 033840 (2009).
[Crossref]

S. V. Firstov, I. A. Bufetov, V. F. Khopin, A. V. Shubin, A. M. Smirnov, L. D. Iskhakova, N. N. Vechkanov, A. N. Guryanov, and E. M. Dianov, “2 W bismuth doped fiber lasers in the wavelength range 1300 – 1500 nm and variation of Bi-doped fiber parameters with core composition,” Laser Phys. Lett. 6(9), 665–670 (2009).
[Crossref]

S. Kivisto, R. Gumenyuk, J. Puustinen, M. Guina, E. M. Dianov, and O. G. Okhotnikov, “Mode-locked Bi-doped all-fiber laser with chirped fiber Bragg grating,” IEEE Photonics Technol. Lett. 21(9), 599–601 (2009).
[Crossref]

A. A. Krylov, P. G. Kryukov, E. M. Dianov, and O. G. Okhotnikov, “Picosecond pulse generation in a passively mode-locked Bi-doped fibre laser,” Quantum Electron. 39(10), 882–886 (2009).
[Crossref]

I. A. Bufetov and E. M. Dianov, “Bi-doped fiber laser,” Laser Phys. Lett. 6(7), 487–504 (2009).
[Crossref]

2008 (6)

2007 (5)

2006 (1)

2005 (2)

E. M. Dianov, V. V. Dvoyrin, V. M. Mashinskii, A. A. Umnikov, M. V. Yashkov, and A. N. Guryanov, “Absorption and luminescence properties of Cr4+-doped silica fibres,” Quantum Electron. 31(11), 996 (2005).

D. Y. Tang, L. M. Zhao, B. Zhao, and A. Q. Liu, “Mechanism of multisoliton formation and soliton energy quantization in passively mode-locked fiber lasers,” Phys. Rev. A 72(4), 043816 (2005).
[Crossref]

Akhmediev, N.

P. 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 in the anomalous dispersion regime,” Phys. Rev. A 79(3), 033840 (2009).
[Crossref]

W. Chang, A. Ankiewicz, J. M. Soto-Crespo, and N. Akhmediev, “Dissipative soliton resonances in laser models with parameter management,” J. Opt. Soc. Am. B 25(12), 1972–1977 (2008).
[Crossref]

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

Ankiewicz, A.

P. 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 in the anomalous dispersion regime,” Phys. Rev. A 79(3), 033840 (2009).
[Crossref]

W. Chang, A. Ankiewicz, J. M. Soto-Crespo, and N. Akhmediev, “Dissipative soliton resonances in laser models with parameter management,” J. Opt. Soc. Am. B 25(12), 1972–1977 (2008).
[Crossref]

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

Bigot, L.

Bouwmans, G.

Bufetov, I. A.

R. Gumenyuk, J. Puustinen, A. V. Shubin, I. A. Bufetov, E. M. Dianov, and O. G. Okhotnikov, “1.32 μm mode-locked bismuth-doped fiber laser operating in anomalous and normal dispersion regimes,” Opt. Lett. 38(20), 4005–4007 (2013).
[Crossref] [PubMed]

S. V. Firstov, I. A. Bufetov, V. F. Khopin, A. V. Shubin, A. M. Smirnov, L. D. Iskhakova, N. N. Vechkanov, A. N. Guryanov, and E. M. Dianov, “2 W bismuth doped fiber lasers in the wavelength range 1300 – 1500 nm and variation of Bi-doped fiber parameters with core composition,” Laser Phys. Lett. 6(9), 665–670 (2009).
[Crossref]

I. A. Bufetov and E. M. Dianov, “Bi-doped fiber laser,” Laser Phys. Lett. 6(7), 487–504 (2009).
[Crossref]

I. A. Bufetov, S. V. Firstov, V. F. Khopin, O. I. Medvedkov, A. N. Guryanov, and E. M. Dianov, “Bi-doped fiber lasers and amplifiers for a spectral region of 1300-1470 nm,” Opt. Lett. 33(19), 2227–2229 (2008).
[Crossref] [PubMed]

I. A. Bufetov, K. M. Golant, S. V. Firstov, A. V. Kholodkov, A. V. Shubin, and E. M. Dianov, “Bismuth activated alumosilicate optical fibers fabricated by surface-plasma chemical vapor deposition technology,” Appl. Opt. 47(27), 4940–4944 (2008).
[Crossref] [PubMed]

E. M. Dianov, A. V. Shubin, M. A. Melkumov, O. I. Medvedkov, and I. A. Bufetov, “High-Power cw bismuth-fiber laser,” J. Opt. Soc. Am. B 24(8), 1749–1755 (2007).
[Crossref]

V. V. Dvoyrin, V. M. Mashinsky, L. I. Bulatov, I. A. Bufetov, A. V. Shubin, M. A. Melkumov, E. F. Kustov, E. M. Dianov, A. A. Umnikov, V. F. Khopin, M. V. Yashkov, and A. N. Guryanov, “Bismuth-doped-glass optical fibers-a new active medium for lasers and amplifiers,” Opt. Lett. 31(20), 2966–2968 (2006).
[Crossref] [PubMed]

Bulatov, L. I.

Cai, Z. R.

Cao, W. J.

Chang, W.

P. 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 in the anomalous dispersion regime,” Phys. Rev. A 79(3), 033840 (2009).
[Crossref]

W. Chang, A. Ankiewicz, J. M. Soto-Crespo, and N. Akhmediev, “Dissipative soliton resonances in laser models with parameter management,” J. Opt. Soc. Am. B 25(12), 1972–1977 (2008).
[Crossref]

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

Chen, H.

P. Yan, R. Lin, H. Zhang, Z. Wnag, H. Chen, and S. Ruan, “Multi-pulses dynamic patterns in a topological insulator mode-locked ytterbium-doped fiber laser,” Opt. Commun. 335, 65–72 (2015).
[Crossref]

Cheng, Z.

Dianov, E.

Dianov, E. M.

R. Gumenyuk, J. Puustinen, A. V. Shubin, I. A. Bufetov, E. M. Dianov, and O. G. Okhotnikov, “1.32 μm mode-locked bismuth-doped fiber laser operating in anomalous and normal dispersion regimes,” Opt. Lett. 38(20), 4005–4007 (2013).
[Crossref] [PubMed]

A. P. Luo, Z. C. Luo, W. C. Xu, V. V. Dvoyrin, V. M. Mashinsky, and E. M. Dianov, “Tunable and switchable dual-wavelength passively mode-locked Bi-doped all-fiber ring laser based on nonlinear polarization rotation,” Laser Phys. Lett. 8(8), 601–605 (2011).
[Crossref]

S. Kivistö, J. Puustinen, M. Guina, R. Herda, S. Marcinkevicius, E. M. Dianov, and O. G. Okhotnikov, “Pulse dynamics of a passively mode-locked Bi-doped fiber laser,” Opt. Express 18(2), 1041–1048 (2010).
[Crossref] [PubMed]

S. V. Firstov, I. A. Bufetov, V. F. Khopin, A. V. Shubin, A. M. Smirnov, L. D. Iskhakova, N. N. Vechkanov, A. N. Guryanov, and E. M. Dianov, “2 W bismuth doped fiber lasers in the wavelength range 1300 – 1500 nm and variation of Bi-doped fiber parameters with core composition,” Laser Phys. Lett. 6(9), 665–670 (2009).
[Crossref]

I. A. Bufetov and E. M. Dianov, “Bi-doped fiber laser,” Laser Phys. Lett. 6(7), 487–504 (2009).
[Crossref]

A. A. Krylov, P. G. Kryukov, E. M. Dianov, and O. G. Okhotnikov, “Picosecond pulse generation in a passively mode-locked Bi-doped fibre laser,” Quantum Electron. 39(10), 882–886 (2009).
[Crossref]

S. Kivisto, R. Gumenyuk, J. Puustinen, M. Guina, E. M. Dianov, and O. G. Okhotnikov, “Mode-locked Bi-doped all-fiber laser with chirped fiber Bragg grating,” IEEE Photonics Technol. Lett. 21(9), 599–601 (2009).
[Crossref]

V. V. Dvoyrin, V. M. Mashinsky, and E. M. Dianov, “Efficient bismuth-doped fiber laser,” J. Quantum Electron. 44(9), 834–840 (2008).
[Crossref]

I. A. Bufetov, K. M. Golant, S. V. Firstov, A. V. Kholodkov, A. V. Shubin, and E. M. Dianov, “Bismuth activated alumosilicate optical fibers fabricated by surface-plasma chemical vapor deposition technology,” Appl. Opt. 47(27), 4940–4944 (2008).
[Crossref] [PubMed]

I. A. Bufetov, S. V. Firstov, V. F. Khopin, O. I. Medvedkov, A. N. Guryanov, and E. M. Dianov, “Bi-doped fiber lasers and amplifiers for a spectral region of 1300-1470 nm,” Opt. Lett. 33(19), 2227–2229 (2008).
[Crossref] [PubMed]

E. M. Dianov, A. A. Krylov, V. V. Dvoyrin, V. M. Mashinsky, P. G. Kryukov, O. G. Okhotnikov, and M. Guina, “Mode-locked bi-doped fiber laser,” J. Opt. Soc. Am. B 24(8), 1807–1808 (2007).
[Crossref]

E. M. Dianov, A. V. Shubin, M. A. Melkumov, O. I. Medvedkov, and I. A. Bufetov, “High-Power cw bismuth-fiber laser,” J. Opt. Soc. Am. B 24(8), 1749–1755 (2007).
[Crossref]

V. V. Dvoyrin, V. M. Mashinsky, and E. M. Dianov, “Yb-Bi pulsed fiber lasers,” Opt. Lett. 32(5), 451–453 (2007).
[Crossref] [PubMed]

V. V. Dvoyrin, V. M. Mashinsky, L. I. Bulatov, I. A. Bufetov, A. V. Shubin, M. A. Melkumov, E. F. Kustov, E. M. Dianov, A. A. Umnikov, V. F. Khopin, M. V. Yashkov, and A. N. Guryanov, “Bismuth-doped-glass optical fibers-a new active medium for lasers and amplifiers,” Opt. Lett. 31(20), 2966–2968 (2006).
[Crossref] [PubMed]

E. M. Dianov, V. V. Dvoyrin, V. M. Mashinskii, A. A. Umnikov, M. V. Yashkov, and A. N. Guryanov, “Absorption and luminescence properties of Cr4+-doped silica fibres,” Quantum Electron. 31(11), 996 (2005).

V. V. Dvoyrin, V. M. Mashinsky, E. M. Dianov, A. A. Umnikov, M. V. Yashkov, and A. N. Guryanov, “Absorption, fluorescence and optical amplification in MCVD bismuth-doped silica glass optical fibres,” in 31st European Conference on IET (ECOC, 2005), pp. 949–950.
[Crossref]

V. V. Dvoyrin, M. Tan, A. S. Zlenko, V.M. Mashinsky, M. A. Melkumov, E. M. Dianov, P. Harper, and S. K. Turitsyn, “Bi-doped fiber laser for telecom applications,” in CLEO: Science and Innovations (2016), paper STu1F.4.

Douay, M.

I. Razdobreev, L. Bigot, V. Pureur, A. Favre, G. Bouwmans, and M. Douay, “Efficient all-fiber bismuth-doped laser,” Appl. Phys. Lett. 90(3), 031103 (2007).
[Crossref]

Duan, L.

Dvoyrin, V. V.

A. P. Luo, Z. C. Luo, W. C. Xu, V. V. Dvoyrin, V. M. Mashinsky, and E. M. Dianov, “Tunable and switchable dual-wavelength passively mode-locked Bi-doped all-fiber ring laser based on nonlinear polarization rotation,” Laser Phys. Lett. 8(8), 601–605 (2011).
[Crossref]

V. V. Dvoyrin, V. M. Mashinsky, and E. M. Dianov, “Efficient bismuth-doped fiber laser,” J. Quantum Electron. 44(9), 834–840 (2008).
[Crossref]

V. V. Dvoyrin, V. M. Mashinsky, and E. M. Dianov, “Yb-Bi pulsed fiber lasers,” Opt. Lett. 32(5), 451–453 (2007).
[Crossref] [PubMed]

E. M. Dianov, A. A. Krylov, V. V. Dvoyrin, V. M. Mashinsky, P. G. Kryukov, O. G. Okhotnikov, and M. Guina, “Mode-locked bi-doped fiber laser,” J. Opt. Soc. Am. B 24(8), 1807–1808 (2007).
[Crossref]

V. V. Dvoyrin, V. M. Mashinsky, L. I. Bulatov, I. A. Bufetov, A. V. Shubin, M. A. Melkumov, E. F. Kustov, E. M. Dianov, A. A. Umnikov, V. F. Khopin, M. V. Yashkov, and A. N. Guryanov, “Bismuth-doped-glass optical fibers-a new active medium for lasers and amplifiers,” Opt. Lett. 31(20), 2966–2968 (2006).
[Crossref] [PubMed]

E. M. Dianov, V. V. Dvoyrin, V. M. Mashinskii, A. A. Umnikov, M. V. Yashkov, and A. N. Guryanov, “Absorption and luminescence properties of Cr4+-doped silica fibres,” Quantum Electron. 31(11), 996 (2005).

V. V. Dvoyrin, V. M. Mashinsky, E. M. Dianov, A. A. Umnikov, M. V. Yashkov, and A. N. Guryanov, “Absorption, fluorescence and optical amplification in MCVD bismuth-doped silica glass optical fibres,” in 31st European Conference on IET (ECOC, 2005), pp. 949–950.
[Crossref]

V. V. Dvoyrin, M. Tan, A. S. Zlenko, V.M. Mashinsky, M. A. Melkumov, E. M. Dianov, P. Harper, and S. K. Turitsyn, “Bi-doped fiber laser for telecom applications,” in CLEO: Science and Innovations (2016), paper STu1F.4.

Favre, A.

I. Razdobreev, L. Bigot, V. Pureur, A. Favre, G. Bouwmans, and M. Douay, “Efficient all-fiber bismuth-doped laser,” Appl. Phys. Lett. 90(3), 031103 (2007).
[Crossref]

Feng, X. H.

X. W. Zheng, Z. C. Luo, H. Liu, N. Zhao, Q. Y. Ning, M. Liu, X. H. Feng, X. B. Xing, A. P. Luo, and W. C. Xu, “High-energy noise-like rectangular pulse in a passively mode-locked figure-eight fiber laser,” Appl. Phys. Express 7(4), 042701 (2014).
[Crossref]

Ferin, A. A.

Ferrari, A. C.

E. J. R. Kelleher, J. C. Travers, Z. Sun, A. C. Ferrari, K. M. Golant, S. V. Popov, and J. R. Taylor, “Bismuth fiber integrated laser mode-locked by carbon nanotubes,” Laser Phys. Lett. 7(11), 790–794 (2010).
[Crossref]

Firstov, S.

T. Noronen, S. Firstov, E. Dianov, and O. G. Okhotnikov, “1700 nm dispersion managed mode-locked bismuth fiber laser,” Sci. Rep. 6(1), 24876 (2016).
[Crossref] [PubMed]

Firstov, S. V.

Golant, K. M.

E. J. R. Kelleher, J. C. Travers, Z. Sun, A. C. Ferrari, K. M. Golant, S. V. Popov, and J. R. Taylor, “Bismuth fiber integrated laser mode-locked by carbon nanotubes,” Laser Phys. Lett. 7(11), 790–794 (2010).
[Crossref]

I. A. Bufetov, K. M. Golant, S. V. Firstov, A. V. Kholodkov, A. V. Shubin, and E. M. Dianov, “Bismuth activated alumosilicate optical fibers fabricated by surface-plasma chemical vapor deposition technology,” Appl. Opt. 47(27), 4940–4944 (2008).
[Crossref] [PubMed]

Grelu, P.

Guina, M.

Gumenyuk, R.

R. Gumenyuk, J. Puustinen, A. V. Shubin, I. A. Bufetov, E. M. Dianov, and O. G. Okhotnikov, “1.32 μm mode-locked bismuth-doped fiber laser operating in anomalous and normal dispersion regimes,” Opt. Lett. 38(20), 4005–4007 (2013).
[Crossref] [PubMed]

S. Kivisto, R. Gumenyuk, J. Puustinen, M. Guina, E. M. Dianov, and O. G. Okhotnikov, “Mode-locked Bi-doped all-fiber laser with chirped fiber Bragg grating,” IEEE Photonics Technol. Lett. 21(9), 599–601 (2009).
[Crossref]

Guo, C.

H. Lin, C. Guo, S. Ruan, and J. Yang, “Dissipative soliton resonance in an all normal-dispersion Yb-doped figure-eight fibre laser with tunable output,” Laser Phys. Lett. 11(8), 085102 (2014).
[Crossref]

Guryanov, A. N.

S. V. Firstov, I. A. Bufetov, V. F. Khopin, A. V. Shubin, A. M. Smirnov, L. D. Iskhakova, N. N. Vechkanov, A. N. Guryanov, and E. M. Dianov, “2 W bismuth doped fiber lasers in the wavelength range 1300 – 1500 nm and variation of Bi-doped fiber parameters with core composition,” Laser Phys. Lett. 6(9), 665–670 (2009).
[Crossref]

I. A. Bufetov, S. V. Firstov, V. F. Khopin, O. I. Medvedkov, A. N. Guryanov, and E. M. Dianov, “Bi-doped fiber lasers and amplifiers for a spectral region of 1300-1470 nm,” Opt. Lett. 33(19), 2227–2229 (2008).
[Crossref] [PubMed]

V. V. Dvoyrin, V. M. Mashinsky, L. I. Bulatov, I. A. Bufetov, A. V. Shubin, M. A. Melkumov, E. F. Kustov, E. M. Dianov, A. A. Umnikov, V. F. Khopin, M. V. Yashkov, and A. N. Guryanov, “Bismuth-doped-glass optical fibers-a new active medium for lasers and amplifiers,” Opt. Lett. 31(20), 2966–2968 (2006).
[Crossref] [PubMed]

E. M. Dianov, V. V. Dvoyrin, V. M. Mashinskii, A. A. Umnikov, M. V. Yashkov, and A. N. Guryanov, “Absorption and luminescence properties of Cr4+-doped silica fibres,” Quantum Electron. 31(11), 996 (2005).

V. V. Dvoyrin, V. M. Mashinsky, E. M. Dianov, A. A. Umnikov, M. V. Yashkov, and A. N. Guryanov, “Absorption, fluorescence and optical amplification in MCVD bismuth-doped silica glass optical fibres,” in 31st European Conference on IET (ECOC, 2005), pp. 949–950.
[Crossref]

Harper, P.

V. V. Dvoyrin, M. Tan, A. S. Zlenko, V.M. Mashinsky, M. A. Melkumov, E. M. Dianov, P. Harper, and S. K. Turitsyn, “Bi-doped fiber laser for telecom applications,” in CLEO: Science and Innovations (2016), paper STu1F.4.

Herda, R.

Huang, Y. Q.

Iskhakova, L. D.

S. V. Firstov, I. A. Bufetov, V. F. Khopin, A. V. Shubin, A. M. Smirnov, L. D. Iskhakova, N. N. Vechkanov, A. N. Guryanov, and E. M. Dianov, “2 W bismuth doped fiber lasers in the wavelength range 1300 – 1500 nm and variation of Bi-doped fiber parameters with core composition,” Laser Phys. Lett. 6(9), 665–670 (2009).
[Crossref]

Kalita, M. P.

Kelleher, E. J. R.

R. I. Woodward and E. J. R. Kelleher, “Dark solitons in laser radiation build-up dynamics,” Phys. Rev. E Stat. Nonlin. Soft Matter Phys. 93(3), 032221 (2016).
[Crossref] [PubMed]

E. J. R. Kelleher, J. C. Travers, Z. Sun, A. C. Ferrari, K. M. Golant, S. V. Popov, and J. R. Taylor, “Bismuth fiber integrated laser mode-locked by carbon nanotubes,” Laser Phys. Lett. 7(11), 790–794 (2010).
[Crossref]

Kholodkov, A. V.

Khopin, V. F.

Kivisto, S.

S. Kivisto, R. Gumenyuk, J. Puustinen, M. Guina, E. M. Dianov, and O. G. Okhotnikov, “Mode-locked Bi-doped all-fiber laser with chirped fiber Bragg grating,” IEEE Photonics Technol. Lett. 21(9), 599–601 (2009).
[Crossref]

Kivistö, S.

Krylov, A. A.

A. A. Krylov, P. G. Kryukov, E. M. Dianov, and O. G. Okhotnikov, “Picosecond pulse generation in a passively mode-locked Bi-doped fibre laser,” Quantum Electron. 39(10), 882–886 (2009).
[Crossref]

E. M. Dianov, A. A. Krylov, V. V. Dvoyrin, V. M. Mashinsky, P. G. Kryukov, O. G. Okhotnikov, and M. Guina, “Mode-locked bi-doped fiber laser,” J. Opt. Soc. Am. B 24(8), 1807–1808 (2007).
[Crossref]

Kryukov, P. G.

A. A. Krylov, P. G. Kryukov, E. M. Dianov, and O. G. Okhotnikov, “Picosecond pulse generation in a passively mode-locked Bi-doped fibre laser,” Quantum Electron. 39(10), 882–886 (2009).
[Crossref]

E. M. Dianov, A. A. Krylov, V. V. Dvoyrin, V. M. Mashinsky, P. G. Kryukov, O. G. Okhotnikov, and M. Guina, “Mode-locked bi-doped fiber laser,” J. Opt. Soc. Am. B 24(8), 1807–1808 (2007).
[Crossref]

Krzempek, K.

Kustov, E. F.

Li, D.

D. Li, D. Tang, L. Zhao, and D. Shen, “Mechanism of dissipative-soliton-resonance generation in passively mode-locked all-normal-dispersion fiber lasers,” IEEE / OSA J. Lightwave Technol. 33(18), 3781–3787 (2015).
[Crossref]

Li, H.

Liao, J. H.

Lin, H.

H. Lin, C. Guo, S. Ruan, and J. Yang, “Dissipative soliton resonance in an all normal-dispersion Yb-doped figure-eight fibre laser with tunable output,” Laser Phys. Lett. 11(8), 085102 (2014).
[Crossref]

Lin, R.

P. Yan, R. Lin, H. Zhang, Z. Wnag, H. Chen, and S. Ruan, “Multi-pulses dynamic patterns in a topological insulator mode-locked ytterbium-doped fiber laser,” Opt. Commun. 335, 65–72 (2015).
[Crossref]

Lin, Z. B.

Liu, A. Q.

D. Y. Tang, L. M. Zhao, B. Zhao, and A. Q. Liu, “Mechanism of multisoliton formation and soliton energy quantization in passively mode-locked fiber lasers,” Phys. Rev. A 72(4), 043816 (2005).
[Crossref]

Liu, H.

X. W. Zheng, Z. C. Luo, H. Liu, N. Zhao, Q. Y. Ning, M. Liu, X. H. Feng, X. B. Xing, A. P. Luo, and W. C. Xu, “High-energy noise-like rectangular pulse in a passively mode-locked figure-eight fiber laser,” Appl. Phys. Express 7(4), 042701 (2014).
[Crossref]

Liu, L.

Liu, M.

X. W. Zheng, Z. C. Luo, H. Liu, N. Zhao, Q. Y. Ning, M. Liu, X. H. Feng, X. B. Xing, A. P. Luo, and W. C. Xu, “High-energy noise-like rectangular pulse in a passively mode-locked figure-eight fiber laser,” Appl. Phys. Express 7(4), 042701 (2014).
[Crossref]

Liu, X.

Liu, X. M.

X. M. Liu, “Mechanism of high-energy pulse generation without wave breaking in mode-locked fiber lasers,” Phys. Rev. A 82(5), 053808 (2010).
[Crossref]

Luo, A. P.

Luo, Z. C.

Mao, D.

Marcinkevicius, S.

Mashinskii, V. M.

E. M. Dianov, V. V. Dvoyrin, V. M. Mashinskii, A. A. Umnikov, M. V. Yashkov, and A. N. Guryanov, “Absorption and luminescence properties of Cr4+-doped silica fibres,” Quantum Electron. 31(11), 996 (2005).

Mashinsky, V. M.

A. P. Luo, Z. C. Luo, W. C. Xu, V. V. Dvoyrin, V. M. Mashinsky, and E. M. Dianov, “Tunable and switchable dual-wavelength passively mode-locked Bi-doped all-fiber ring laser based on nonlinear polarization rotation,” Laser Phys. Lett. 8(8), 601–605 (2011).
[Crossref]

V. V. Dvoyrin, V. M. Mashinsky, and E. M. Dianov, “Efficient bismuth-doped fiber laser,” J. Quantum Electron. 44(9), 834–840 (2008).
[Crossref]

V. V. Dvoyrin, V. M. Mashinsky, and E. M. Dianov, “Yb-Bi pulsed fiber lasers,” Opt. Lett. 32(5), 451–453 (2007).
[Crossref] [PubMed]

E. M. Dianov, A. A. Krylov, V. V. Dvoyrin, V. M. Mashinsky, P. G. Kryukov, O. G. Okhotnikov, and M. Guina, “Mode-locked bi-doped fiber laser,” J. Opt. Soc. Am. B 24(8), 1807–1808 (2007).
[Crossref]

V. V. Dvoyrin, V. M. Mashinsky, L. I. Bulatov, I. A. Bufetov, A. V. Shubin, M. A. Melkumov, E. F. Kustov, E. M. Dianov, A. A. Umnikov, V. F. Khopin, M. V. Yashkov, and A. N. Guryanov, “Bismuth-doped-glass optical fibers-a new active medium for lasers and amplifiers,” Opt. Lett. 31(20), 2966–2968 (2006).
[Crossref] [PubMed]

V. V. Dvoyrin, V. M. Mashinsky, E. M. Dianov, A. A. Umnikov, M. V. Yashkov, and A. N. Guryanov, “Absorption, fluorescence and optical amplification in MCVD bismuth-doped silica glass optical fibres,” in 31st European Conference on IET (ECOC, 2005), pp. 949–950.
[Crossref]

Mashinsky, V.M.

V. V. Dvoyrin, M. Tan, A. S. Zlenko, V.M. Mashinsky, M. A. Melkumov, E. M. Dianov, P. Harper, and S. K. Turitsyn, “Bi-doped fiber laser for telecom applications,” in CLEO: Science and Innovations (2016), paper STu1F.4.

Medvedkov, O. I.

Melkumov, M.

Melkumov, M. A.

Ning, Q. Y.

Noronen, T.

Okhotnikov, O. G.

T. Noronen, S. Firstov, E. Dianov, and O. G. Okhotnikov, “1700 nm dispersion managed mode-locked bismuth fiber laser,” Sci. Rep. 6(1), 24876 (2016).
[Crossref] [PubMed]

T. Noronen, M. Melkumov, D. Stolyarov, V. F. Khopin, E. Dianov, and O. G. Okhotnikov, “All-bismuth fiber system for femtosecond pulse generation, compression, and energy scaling,” Opt. Lett. 40(10), 2217–2220 (2015).
[Crossref] [PubMed]

R. Gumenyuk, J. Puustinen, A. V. Shubin, I. A. Bufetov, E. M. Dianov, and O. G. Okhotnikov, “1.32 μm mode-locked bismuth-doped fiber laser operating in anomalous and normal dispersion regimes,” Opt. Lett. 38(20), 4005–4007 (2013).
[Crossref] [PubMed]

S. Kivistö, J. Puustinen, M. Guina, R. Herda, S. Marcinkevicius, E. M. Dianov, and O. G. Okhotnikov, “Pulse dynamics of a passively mode-locked Bi-doped fiber laser,” Opt. Express 18(2), 1041–1048 (2010).
[Crossref] [PubMed]

S. Kivisto, R. Gumenyuk, J. Puustinen, M. Guina, E. M. Dianov, and O. G. Okhotnikov, “Mode-locked Bi-doped all-fiber laser with chirped fiber Bragg grating,” IEEE Photonics Technol. Lett. 21(9), 599–601 (2009).
[Crossref]

A. A. Krylov, P. G. Kryukov, E. M. Dianov, and O. G. Okhotnikov, “Picosecond pulse generation in a passively mode-locked Bi-doped fibre laser,” Quantum Electron. 39(10), 882–886 (2009).
[Crossref]

E. M. Dianov, A. A. Krylov, V. V. Dvoyrin, V. M. Mashinsky, P. G. Kryukov, O. G. Okhotnikov, and M. Guina, “Mode-locked bi-doped fiber laser,” J. Opt. Soc. Am. B 24(8), 1807–1808 (2007).
[Crossref]

Popov, S. V.

E. J. R. Kelleher, J. C. Travers, Z. Sun, A. C. Ferrari, K. M. Golant, S. V. Popov, and J. R. Taylor, “Bismuth fiber integrated laser mode-locked by carbon nanotubes,” Laser Phys. Lett. 7(11), 790–794 (2010).
[Crossref]

A. B. Rulkov, A. A. Ferin, S. V. Popov, J. R. Taylor, I. Razdobreev, L. Bigot, and G. Bouwmans, “Narrow-line, 1178nm CW bismuth-doped fiber laser with 6.4W output for direct frequency doubling,” Opt. Express 15(9), 5473–5476 (2007).
[Crossref] [PubMed]

Pureur, V.

I. Razdobreev, L. Bigot, V. Pureur, A. Favre, G. Bouwmans, and M. Douay, “Efficient all-fiber bismuth-doped laser,” Appl. Phys. Lett. 90(3), 031103 (2007).
[Crossref]

Puustinen, J.

Qi, Y. L.

Razdobreev, I.

Ruan, S.

P. Yan, R. Lin, H. Zhang, Z. Wnag, H. Chen, and S. Ruan, “Multi-pulses dynamic patterns in a topological insulator mode-locked ytterbium-doped fiber laser,” Opt. Commun. 335, 65–72 (2015).
[Crossref]

H. Lin, C. Guo, S. Ruan, and J. Yang, “Dissipative soliton resonance in an all normal-dispersion Yb-doped figure-eight fibre laser with tunable output,” Laser Phys. Lett. 11(8), 085102 (2014).
[Crossref]

Rulkov, A. B.

Sahu, J.

Shen, D.

D. Li, D. Tang, L. Zhao, and D. Shen, “Mechanism of dissipative-soliton-resonance generation in passively mode-locked all-normal-dispersion fiber lasers,” IEEE / OSA J. Lightwave Technol. 33(18), 3781–3787 (2015).
[Crossref]

Shubin, A. V.

Smirnov, A. M.

S. V. Firstov, I. A. Bufetov, V. F. Khopin, A. V. Shubin, A. M. Smirnov, L. D. Iskhakova, N. N. Vechkanov, A. N. Guryanov, and E. M. Dianov, “2 W bismuth doped fiber lasers in the wavelength range 1300 – 1500 nm and variation of Bi-doped fiber parameters with core composition,” Laser Phys. Lett. 6(9), 665–670 (2009).
[Crossref]

Soto-Crespo, J. M.

P. 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 in the anomalous dispersion regime,” Phys. Rev. A 79(3), 033840 (2009).
[Crossref]

W. Chang, A. Ankiewicz, J. M. Soto-Crespo, and N. Akhmediev, “Dissipative soliton resonances in laser models with parameter management,” J. Opt. Soc. Am. B 25(12), 1972–1977 (2008).
[Crossref]

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

Stolyarov, D.

Sun, Z.

E. J. R. Kelleher, J. C. Travers, Z. Sun, A. C. Ferrari, K. M. Golant, S. V. Popov, and J. R. Taylor, “Bismuth fiber integrated laser mode-locked by carbon nanotubes,” Laser Phys. Lett. 7(11), 790–794 (2010).
[Crossref]

Tan, M.

V. V. Dvoyrin, M. Tan, A. S. Zlenko, V.M. Mashinsky, M. A. Melkumov, E. M. Dianov, P. Harper, and S. K. Turitsyn, “Bi-doped fiber laser for telecom applications,” in CLEO: Science and Innovations (2016), paper STu1F.4.

Tang, D.

D. Li, D. Tang, L. Zhao, and D. Shen, “Mechanism of dissipative-soliton-resonance generation in passively mode-locked all-normal-dispersion fiber lasers,” IEEE / OSA J. Lightwave Technol. 33(18), 3781–3787 (2015).
[Crossref]

Tang, D. Y.

D. Y. Tang, L. M. Zhao, B. Zhao, and A. Q. Liu, “Mechanism of multisoliton formation and soliton energy quantization in passively mode-locked fiber lasers,” Phys. Rev. A 72(4), 043816 (2005).
[Crossref]

Taylor, J. R.

E. J. R. Kelleher, J. C. Travers, Z. Sun, A. C. Ferrari, K. M. Golant, S. V. Popov, and J. R. Taylor, “Bismuth fiber integrated laser mode-locked by carbon nanotubes,” Laser Phys. Lett. 7(11), 790–794 (2010).
[Crossref]

A. B. Rulkov, A. A. Ferin, S. V. Popov, J. R. Taylor, I. Razdobreev, L. Bigot, and G. Bouwmans, “Narrow-line, 1178nm CW bismuth-doped fiber laser with 6.4W output for direct frequency doubling,” Opt. Express 15(9), 5473–5476 (2007).
[Crossref] [PubMed]

Travers, J. C.

E. J. R. Kelleher, J. C. Travers, Z. Sun, A. C. Ferrari, K. M. Golant, S. V. Popov, and J. R. Taylor, “Bismuth fiber integrated laser mode-locked by carbon nanotubes,” Laser Phys. Lett. 7(11), 790–794 (2010).
[Crossref]

Turitsyn, S. K.

V. V. Dvoyrin, M. Tan, A. S. Zlenko, V.M. Mashinsky, M. A. Melkumov, E. M. Dianov, P. Harper, and S. K. Turitsyn, “Bi-doped fiber laser for telecom applications,” in CLEO: Science and Innovations (2016), paper STu1F.4.

Umnikov, A. A.

V. V. Dvoyrin, V. M. Mashinsky, L. I. Bulatov, I. A. Bufetov, A. V. Shubin, M. A. Melkumov, E. F. Kustov, E. M. Dianov, A. A. Umnikov, V. F. Khopin, M. V. Yashkov, and A. N. Guryanov, “Bismuth-doped-glass optical fibers-a new active medium for lasers and amplifiers,” Opt. Lett. 31(20), 2966–2968 (2006).
[Crossref] [PubMed]

E. M. Dianov, V. V. Dvoyrin, V. M. Mashinskii, A. A. Umnikov, M. V. Yashkov, and A. N. Guryanov, “Absorption and luminescence properties of Cr4+-doped silica fibres,” Quantum Electron. 31(11), 996 (2005).

V. V. Dvoyrin, V. M. Mashinsky, E. M. Dianov, A. A. Umnikov, M. V. Yashkov, and A. N. Guryanov, “Absorption, fluorescence and optical amplification in MCVD bismuth-doped silica glass optical fibres,” in 31st European Conference on IET (ECOC, 2005), pp. 949–950.
[Crossref]

Vechkanov, N. N.

S. V. Firstov, I. A. Bufetov, V. F. Khopin, A. V. Shubin, A. M. Smirnov, L. D. Iskhakova, N. N. Vechkanov, A. N. Guryanov, and E. M. Dianov, “2 W bismuth doped fiber lasers in the wavelength range 1300 – 1500 nm and variation of Bi-doped fiber parameters with core composition,” Laser Phys. Lett. 6(9), 665–670 (2009).
[Crossref]

Wang, G.

Wang, L.

Wang, P.

Wang, S. K.

Wnag, Z.

P. Yan, R. Lin, H. Zhang, Z. Wnag, H. Chen, and S. Ruan, “Multi-pulses dynamic patterns in a topological insulator mode-locked ytterbium-doped fiber laser,” Opt. Commun. 335, 65–72 (2015).
[Crossref]

Woodward, R. I.

R. I. Woodward and E. J. R. Kelleher, “Dark solitons in laser radiation build-up dynamics,” Phys. Rev. E Stat. Nonlin. Soft Matter Phys. 93(3), 032221 (2016).
[Crossref] [PubMed]

Xing, X. B.

X. W. Zheng, Z. C. Luo, H. Liu, N. Zhao, Q. Y. Ning, M. Liu, X. H. Feng, X. B. Xing, A. P. Luo, and W. C. Xu, “High-energy noise-like rectangular pulse in a passively mode-locked figure-eight fiber laser,” Appl. Phys. Express 7(4), 042701 (2014).
[Crossref]

Xu, S. H.

Xu, W. C.

Yan, P.

P. Yan, R. Lin, H. Zhang, Z. Wnag, H. Chen, and S. Ruan, “Multi-pulses dynamic patterns in a topological insulator mode-locked ytterbium-doped fiber laser,” Opt. Commun. 335, 65–72 (2015).
[Crossref]

Yang, J.

H. Lin, C. Guo, S. Ruan, and J. Yang, “Dissipative soliton resonance in an all normal-dispersion Yb-doped figure-eight fibre laser with tunable output,” Laser Phys. Lett. 11(8), 085102 (2014).
[Crossref]

Yang, Z. M.

Yashkov, M. V.

V. V. Dvoyrin, V. M. Mashinsky, L. I. Bulatov, I. A. Bufetov, A. V. Shubin, M. A. Melkumov, E. F. Kustov, E. M. Dianov, A. A. Umnikov, V. F. Khopin, M. V. Yashkov, and A. N. Guryanov, “Bismuth-doped-glass optical fibers-a new active medium for lasers and amplifiers,” Opt. Lett. 31(20), 2966–2968 (2006).
[Crossref] [PubMed]

E. M. Dianov, V. V. Dvoyrin, V. M. Mashinskii, A. A. Umnikov, M. V. Yashkov, and A. N. Guryanov, “Absorption and luminescence properties of Cr4+-doped silica fibres,” Quantum Electron. 31(11), 996 (2005).

V. V. Dvoyrin, V. M. Mashinsky, E. M. Dianov, A. A. Umnikov, M. V. Yashkov, and A. N. Guryanov, “Absorption, fluorescence and optical amplification in MCVD bismuth-doped silica glass optical fibres,” in 31st European Conference on IET (ECOC, 2005), pp. 949–950.
[Crossref]

Yoo, S.

Yu, W.

Zhang, H.

P. Yan, R. Lin, H. Zhang, Z. Wnag, H. Chen, and S. Ruan, “Multi-pulses dynamic patterns in a topological insulator mode-locked ytterbium-doped fiber laser,” Opt. Commun. 335, 65–72 (2015).
[Crossref]

Zhao, B.

D. Y. Tang, L. M. Zhao, B. Zhao, and A. Q. Liu, “Mechanism of multisoliton formation and soliton energy quantization in passively mode-locked fiber lasers,” Phys. Rev. A 72(4), 043816 (2005).
[Crossref]

Zhao, L.

D. Li, D. Tang, L. Zhao, and D. Shen, “Mechanism of dissipative-soliton-resonance generation in passively mode-locked all-normal-dispersion fiber lasers,” IEEE / OSA J. Lightwave Technol. 33(18), 3781–3787 (2015).
[Crossref]

Zhao, L. M.

D. Y. Tang, L. M. Zhao, B. Zhao, and A. Q. Liu, “Mechanism of multisoliton formation and soliton energy quantization in passively mode-locked fiber lasers,” Phys. Rev. A 72(4), 043816 (2005).
[Crossref]

Zhao, N.

X. W. Zheng, Z. C. Luo, H. Liu, N. Zhao, Q. Y. Ning, M. Liu, X. H. Feng, X. B. Xing, A. P. Luo, and W. C. Xu, “High-energy noise-like rectangular pulse in a passively mode-locked figure-eight fiber laser,” Appl. Phys. Express 7(4), 042701 (2014).
[Crossref]

Zheng, X. W.

X. W. Zheng, Z. C. Luo, H. Liu, N. Zhao, Q. Y. Ning, M. Liu, X. H. Feng, X. B. Xing, A. P. Luo, and W. C. Xu, “High-energy noise-like rectangular pulse in a passively mode-locked figure-eight fiber laser,” Appl. Phys. Express 7(4), 042701 (2014).
[Crossref]

Zlenko, A. S.

V. V. Dvoyrin, M. Tan, A. S. Zlenko, V.M. Mashinsky, M. A. Melkumov, E. M. Dianov, P. Harper, and S. K. Turitsyn, “Bi-doped fiber laser for telecom applications,” in CLEO: Science and Innovations (2016), paper STu1F.4.

Appl. Opt. (1)

Appl. Phys. Express (1)

X. W. Zheng, Z. C. Luo, H. Liu, N. Zhao, Q. Y. Ning, M. Liu, X. H. Feng, X. B. Xing, A. P. Luo, and W. C. Xu, “High-energy noise-like rectangular pulse in a passively mode-locked figure-eight fiber laser,” Appl. Phys. Express 7(4), 042701 (2014).
[Crossref]

Appl. Phys. Lett. (1)

I. Razdobreev, L. Bigot, V. Pureur, A. Favre, G. Bouwmans, and M. Douay, “Efficient all-fiber bismuth-doped laser,” Appl. Phys. Lett. 90(3), 031103 (2007).
[Crossref]

IEEE / OSA J. Lightwave Technol. (1)

D. Li, D. Tang, L. Zhao, and D. Shen, “Mechanism of dissipative-soliton-resonance generation in passively mode-locked all-normal-dispersion fiber lasers,” IEEE / OSA J. Lightwave Technol. 33(18), 3781–3787 (2015).
[Crossref]

IEEE Photonics Technol. Lett. (1)

S. Kivisto, R. Gumenyuk, J. Puustinen, M. Guina, E. M. Dianov, and O. G. Okhotnikov, “Mode-locked Bi-doped all-fiber laser with chirped fiber Bragg grating,” IEEE Photonics Technol. Lett. 21(9), 599–601 (2009).
[Crossref]

J. Opt. Soc. Am. B (4)

J. Quantum Electron. (1)

V. V. Dvoyrin, V. M. Mashinsky, and E. M. Dianov, “Efficient bismuth-doped fiber laser,” J. Quantum Electron. 44(9), 834–840 (2008).
[Crossref]

Laser Phys. Lett. (5)

S. V. Firstov, I. A. Bufetov, V. F. Khopin, A. V. Shubin, A. M. Smirnov, L. D. Iskhakova, N. N. Vechkanov, A. N. Guryanov, and E. M. Dianov, “2 W bismuth doped fiber lasers in the wavelength range 1300 – 1500 nm and variation of Bi-doped fiber parameters with core composition,” Laser Phys. Lett. 6(9), 665–670 (2009).
[Crossref]

I. A. Bufetov and E. M. Dianov, “Bi-doped fiber laser,” Laser Phys. Lett. 6(7), 487–504 (2009).
[Crossref]

E. J. R. Kelleher, J. C. Travers, Z. Sun, A. C. Ferrari, K. M. Golant, S. V. Popov, and J. R. Taylor, “Bismuth fiber integrated laser mode-locked by carbon nanotubes,” Laser Phys. Lett. 7(11), 790–794 (2010).
[Crossref]

A. P. Luo, Z. C. Luo, W. C. Xu, V. V. Dvoyrin, V. M. Mashinsky, and E. M. Dianov, “Tunable and switchable dual-wavelength passively mode-locked Bi-doped all-fiber ring laser based on nonlinear polarization rotation,” Laser Phys. Lett. 8(8), 601–605 (2011).
[Crossref]

H. Lin, C. Guo, S. Ruan, and J. Yang, “Dissipative soliton resonance in an all normal-dispersion Yb-doped figure-eight fibre laser with tunable output,” Laser Phys. Lett. 11(8), 085102 (2014).
[Crossref]

Opt. Commun. (1)

P. Yan, R. Lin, H. Zhang, Z. Wnag, H. Chen, and S. Ruan, “Multi-pulses dynamic patterns in a topological insulator mode-locked ytterbium-doped fiber laser,” Opt. Commun. 335, 65–72 (2015).
[Crossref]

Opt. Express (9)

L. Duan, X. Liu, D. Mao, L. Wang, and G. Wang, “Experimental observation of dissipative soliton resonance in an anomalous-dispersion fiber laser,” Opt. Express 20(1), 265–270 (2012).
[Crossref] [PubMed]

M. P. Kalita, S. Yoo, and J. Sahu, “Bismuth doped fiber laser and study of unsaturable loss and pump induced absorption in laser performance,” Opt. Express 16(25), 21032–21038 (2008).
[Crossref] [PubMed]

S. Kivistö, J. Puustinen, M. Guina, R. Herda, S. Marcinkevicius, E. M. Dianov, and O. G. Okhotnikov, “Pulse dynamics of a passively mode-locked Bi-doped fiber laser,” Opt. Express 18(2), 1041–1048 (2010).
[Crossref] [PubMed]

S. K. Wang, Q. Y. Ning, A. P. Luo, Z. B. Lin, Z. C. Luo, and W. C. Xu, “Dissipative soliton resonance in a passively mode-locked figure-eight fiber laser,” Opt. Express 21(2), 2402–2407 (2013).
[Crossref] [PubMed]

L. Liu, J. H. Liao, Q. Y. Ning, W. Yu, A. P. Luo, S. H. Xu, Z. C. Luo, Z. M. Yang, and W. C. Xu, “Wave-breaking-free pulse in an all-fiber normal-dispersion Yb-doped fiber laser under dissipative soliton resonance condition,” Opt. Express 21(22), 27087–27092 (2013).
[Crossref] [PubMed]

Z. Cheng, H. Li, and P. Wang, “Simulation of generation of dissipative soliton, dissipative soliton resonance and noise-like pulse in Yb-doped mode-locked fiber lasers,” Opt. Express 23(5), 5972–5981 (2015).
[Crossref] [PubMed]

K. Krzempek, “Dissipative soliton resonances in all-fiber Er-Yb double clad figure-8 laser,” Opt. Express 23(24), 30651–30656 (2015).
[Crossref] [PubMed]

Y. Q. Huang, Y. L. Qi, Z. C. Luo, A. P. Luo, and W. C. Xu, “Versatile patterns of multiple rectangular noise-like pulses in a fiber laser,” Opt. Express 24(7), 7356–7363 (2016).
[Crossref] [PubMed]

A. B. Rulkov, A. A. Ferin, S. V. Popov, J. R. Taylor, I. Razdobreev, L. Bigot, and G. Bouwmans, “Narrow-line, 1178nm CW bismuth-doped fiber laser with 6.4W output for direct frequency doubling,” Opt. Express 15(9), 5473–5476 (2007).
[Crossref] [PubMed]

Opt. Lett. (6)

Phys. Rev. A (4)

D. Y. Tang, L. M. Zhao, B. Zhao, and A. Q. Liu, “Mechanism of multisoliton formation and soliton energy quantization in passively mode-locked fiber lasers,” Phys. Rev. A 72(4), 043816 (2005).
[Crossref]

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

W. Chang, A. Ankiewicz, J. M. Soto-Crespo, and N. Akhmediev, “Dissipative soliton resonances in the anomalous dispersion regime,” Phys. Rev. A 79(3), 033840 (2009).
[Crossref]

X. M. Liu, “Mechanism of high-energy pulse generation without wave breaking in mode-locked fiber lasers,” Phys. Rev. A 82(5), 053808 (2010).
[Crossref]

Phys. Rev. E Stat. Nonlin. Soft Matter Phys. (1)

R. I. Woodward and E. J. R. Kelleher, “Dark solitons in laser radiation build-up dynamics,” Phys. Rev. E Stat. Nonlin. Soft Matter Phys. 93(3), 032221 (2016).
[Crossref] [PubMed]

Quantum Electron. (2)

E. M. Dianov, V. V. Dvoyrin, V. M. Mashinskii, A. A. Umnikov, M. V. Yashkov, and A. N. Guryanov, “Absorption and luminescence properties of Cr4+-doped silica fibres,” Quantum Electron. 31(11), 996 (2005).

A. A. Krylov, P. G. Kryukov, E. M. Dianov, and O. G. Okhotnikov, “Picosecond pulse generation in a passively mode-locked Bi-doped fibre laser,” Quantum Electron. 39(10), 882–886 (2009).
[Crossref]

Sci. Rep. (1)

T. Noronen, S. Firstov, E. Dianov, and O. G. Okhotnikov, “1700 nm dispersion managed mode-locked bismuth fiber laser,” Sci. Rep. 6(1), 24876 (2016).
[Crossref] [PubMed]

Other (4)

V. V. Dvoyrin, M. Tan, A. S. Zlenko, V.M. Mashinsky, M. A. Melkumov, E. M. Dianov, P. Harper, and S. K. Turitsyn, “Bi-doped fiber laser for telecom applications,” in CLEO: Science and Innovations (2016), paper STu1F.4.

S. Yoo, M. P. Kalita, J. Sahu, J. Nilsson, and D. Payn, “Bismuth-doped fiber laser at 1.16 µm,” Conference on Lasers and Electro-Optics, paper CFL4 (2008).

M. A. Melkumov, S. V. Alyshev, S. V. Firstov, and E. M. Dianov, “Bismuth-doped fiber lasers and amplifiers: review and prospects,” Laser Optics (LO), 2016 International Conference, paper 075499552 (2016).
[Crossref]

V. V. Dvoyrin, V. M. Mashinsky, E. M. Dianov, A. A. Umnikov, M. V. Yashkov, and A. N. Guryanov, “Absorption, fluorescence and optical amplification in MCVD bismuth-doped silica glass optical fibres,” in 31st European Conference on IET (ECOC, 2005), pp. 949–950.
[Crossref]

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Figures (7)

Fig. 1
Fig. 1

Schematic of the passively mode-locked Bi-doped fiber laser.

Fig. 2
Fig. 2

The mode-locked operation with rectangular pulse at pump power of 1.34 W. (a) optical spectrum, (b) pulse train, (c) the single pulse, and (d) RF spectrum.

Fig. 3
Fig. 3

The dynamic characteristics of the mode-locked pulse at different pump powers. (a) spectra, (b) pulse broadening process.

Fig. 4
Fig. 4

Pulse durations and pulse energies versus the pump powers.

Fig. 5
Fig. 5

The schematic of the lumped and averaged model.

Fig. 6
Fig. 6

Evolution from noise signal to DSR. (a-c) the noise-burst regime. The evolved process in temporal domain is shown in (a), typical temporal profile and spectrum are illustrated in (b) and (c), respectively. (d-f) regime with long-lived dark soliton. Evolution of pulse from 1800th to 3250th roundtrip is shown in (d), the details of dark soliton are demonstrated in (e) and (f) when zoomed in.

Fig. 7
Fig. 7

Numerical results of DSR. (a) pulse profile and (b) spectrum at gain saturation energy Es = 650 pJ, (c) pulse evolution under increasing Es, (d) pulse widths and pulse energies versus Es.

Equations (3)

Equations on this page are rendered with MathJax. Learn more.

( u n+1 0 )= M p M A M o L g L f L k L NL L k M PC ( u n 0 )
M p =( 1 0 0 0 ), M A =( cos α 2 sin α 2 sin α 2 cos α 2 ), M o =( B 0 0 B ) M PC =( cos α 1 sin α 1 sin α 1 e i α 3 cos α 1 e i α 3 ), L k =( e ikL/2 0 0 e ikL/2 ) L NL = e iγ | u n | 2 L ( cos 2γJ 3 sin 2γJ 3 sin 2γJ 3 cos 2γJ 3 ), J=cos α 1 sin α 1 sin α 3 L | u n | 2 L g = ( e gL/2 ( 1+ L 2 g Ω 2 2 t 2 ) ) 2 e gL ( 1+ gL Ω 2 2 t 2 ) L f = ( 1 i 2 β 2 L 2 2 t 2 ) 2 1i β 2 L 2 2 t 2
T = B | [ cos α 2 ( cos 2γJ 3 cos α 1 e ikL +sin 2γJ 3 sin α 1 e i α 3 ) +sin α 2 ( sin 2γJ 3 cos α 1 +cos 2γJ 3 sin α 1 e i α 3 +ikL ) ]|,

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