Abstract

Ultrafast fiber laser light sources attract enormous interest due to the booming applications they are enabling, including long-distance communication, optical metrology, detecting technology of infra-biophotons, and novel material processing. In this paper, we demonstrate 175 fs dispersion-managed soliton (DMS) mode-locked ytterbium-doped fiber (YDF) laser based on single-walled carbon nanotubes (SWCNTs) saturable absorber (SA). The output DMSs have been achieved with repetition rate of 21.2 MHz, center wavelength of 1025.5 nm, and a spectral width of 32.7 nm. The operation directly pulse duration of 300 fs for generated pulse is the reported shortest pulse width for broadband SA based YDF lasers. By using an external grating-based compressor, the pulse duration could be compressed down to 175 fs. To the best of our knowledge, it is the shortest pulse duration obtained directly from YDF laser based on broadband SAs. In this paper, SWCNTs-SA has been utilized as the key optical component (mode locker) and the grating pair providing negative dispersion acts as the dispersion controller.

© 2018 Optical Society of America under the terms of the OSA Open Access Publishing Agreement

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2018 (1)

J. Wang, W. Lu, J. Li, H. Chen, Z. Jiang, J. Wang, W. Zhang, M. Zhang, I. Ling Li, Z. Xu, W. Liu, and P. Yan, “Ultrafast Thulium-Doped Fiber Laser Mode Locked by Monolayer WSe2,” IEEE J. Sel. Top. Quantum Electron. 24(3), 1–6 (2018).

2017 (5)

2016 (8)

Y. Song, S. Chen, Q. Zhang, L. Li, L. Zhao, H. Zhang, and D. Tang, “Vector soliton fiber laser passively mode locked by few layer black phosphorus-based optical saturable absorber,” Opt. Express 24(23), 25933–25942 (2016).
[Crossref] [PubMed]

Y. Cui, F. Lu, and X. Liu, “MoS2-clad microfibre laser delivering conventional, dispersion-managed and dissipative solitons,” Sci. Rep. 6(1), 30524 (2016).
[Crossref] [PubMed]

J. Koo, J. Park, J. Lee, Y. M. Jhon, and J. H. Lee, “Femtosecond harmonic mode-locking of a fiber laser at 3.27 GHz using a bulk-like, MoSe2-based saturable absorber,” Opt. Express 24(10), 10575–10589 (2016).
[Crossref] [PubMed]

D. Mao, X. She, B. Du, D. Yang, W. Zhang, K. Song, X. Cui, B. Jiang, T. Peng, and J. Zhao, “Erbium-doped fiber laser passively mode locked with few-layer WSe2/MoSe2 nanosheets,” Sci. Rep. 6(1), 23583 (2016).
[Crossref] [PubMed]

H. Jeong, S. Y. Choi, F. Rotermund, K. Lee, and D.-I. Yeom, “All-Polarization Maintaining Passively Mode-Locked Fiber Laser Using Evanescent Field Interaction With Single-Walled Carbon Nanotube Saturable Absorber,” J. Lightwave Technol. 34(15), 3510–3514 (2016).
[Crossref]

X. Li, K. Wu, Z. Sun, B. Meng, Y. Wang, Y. Wang, X. Yu, X. Yu, Y. Zhang, P. P. Shum, and Q. J. Wang, “Single-wall carbon nanotubes and graphene oxide-based saturable absorbers for low phase noise mode-locked fiber lasers,” Sci. Rep. 6(1), 25266 (2016).
[Crossref] [PubMed]

M. Kowalczyk, J. Bogusławski, R. Zybała, K. Mars, A. Mikuła, G. Soboń, and J. Sotor, “Sb2Te3-deposited D-shaped fiber as a saturable absorber for mode-locked Yb-doped fiber lasers,” Opt. Mater. Express 6(7), 2273 (2016).
[Crossref]

W. Liu, L. Pang, H. Han, W. Tian, H. Chen, M. Lei, P. Yan, and Z. Wei, “70-fs mode-locked erbium-doped fiber laser with topological insulator,” Sci. Rep. 6(1), 19997 (2016).
[Crossref] [PubMed]

2015 (18)

J. Sotor, G. Sobon, W. Macherzynski, P. Paletko, and K. M. Abramski, “Black phosphorus saturable absorber for ultrashort pulse generation,” Appl. Phys. Lett. 107(5), 051108 (2015).
[Crossref]

J. Boguslawski, J. Sotor, G. Sobon, R. Kozinski, K. Librant, M. Aksienionek, L. Lipinska, and K. M. Abramski, “Graphene oxide paper as a saturable absorber for Er- and Tm-doped fiber lasers,” Photon. Res. 3(4), 119 (2015).
[Crossref]

Z. Cheng, H. Li, H. Shi, J. Ren, Q. H. Yang, and P. Wang, “Dissipative soliton resonance and reverse saturable absorption in graphene oxide mode-locked all-normal-dispersion Yb-doped fiber laser,” Opt. Express 23(6), 7000–7006 (2015).
[Crossref] [PubMed]

J. Sotor, I. Pasternak, A. Krajewska, W. Strupinski, and G. Sobon, “Sub-90 fs a stretched-pulse mode-locked fiber laser based on a graphene saturable absorber,” Opt. Express 23(21), 27503–27508 (2015).
[Crossref] [PubMed]

H. Guoyu, Y. Song, K. Li, Z. Dou, J. Tian, and X. Zhang, “Mode-locked ytterbium-doped fiber laser based on tungsten disulphide,” Laser Phys. Lett. 12(12), 125102 (2015).
[Crossref]

R. Khazaeinezhad, S. Hosseinzadeh Kassani, H. Jeong, D.-I. Yeom, and K. Oh, “Femtosecond Soliton Pulse Generation Using Evanescent Field Interaction Through Tungsten Disulfide (WS2) Film,” J. Lightwave Technol. 33(17), 3550–3557 (2015).
[Crossref]

R. Khazaeinezhad, S. H. Kassani, J. Hwanseong, P. Kyung Jun, K. Byoung Yoon, Y. Dong-Il, and O. Kyunghwan, “Ultrafast Pulsed All-Fiber Laser Based on Tapered Fiber Enclosed by Few-Layer WS2 Nanosheets,” IEEE Photonics Technol. Lett. 27(15), 1581–1584 (2015).
[Crossref]

L. Li, S. Jiang, Y. Wang, X. Wang, L. Duan, D. Mao, Z. Li, B. Man, and J. Si, “WS2/fluorine mica (FM) saturable absorbers for all-normal-dispersion mode-locked fiber laser,” Opt. Express 23(22), 28698–28706 (2015).
[Crossref] [PubMed]

Z. Luo, Y. Li, M. Zhong, Y. Huang, X. Wan, J. Peng, and J. Weng, “Nonlinear optical absorption of few-layer molybdenum diselenide (MoSe2) for passively mode-locked soliton fiber laser [Invited],” Photon. Res. 3(3), A79 (2015).
[Crossref]

D. Mao, Y. Wang, C. Ma, L. Han, B. Jiang, X. Gan, S. Hua, W. Zhang, T. Mei, and J. Zhao, “WS2 mode-locked ultrafast fiber laser,” Sci. Rep. 5(1), 7965 (2015).
[Crossref] [PubMed]

D. Mao, S. Zhang, Y. Wang, X. Gan, W. Zhang, T. Mei, Y. Wang, Y. Wang, H. Zeng, and J. Zhao, “WS2 saturable absorber for dissipative soliton mode locking at 1.06 and 1.55 microm,” Opt. Express 23(21), 27509–27519 (2015).
[Crossref] [PubMed]

K. Wu, X. Zhang, J. Wang, and J. Chen, “463-MHz fundamental mode-locked fiber laser based on few-layer MoS2 saturable absorber,” Opt. Lett. 40(7), 1374–1377 (2015).
[Crossref] [PubMed]

K. Wu, X. Zhang, J. Wang, X. Li, and J. Chen, “WS2 as a saturable absorber for ultrafast photonic applications of mode-locked and Q-switched lasers,” Opt. Express 23(9), 11453–11461 (2015).
[Crossref] [PubMed]

P. Yan, A. Liu, Y. Chen, J. Wang, S. Ruan, H. Chen, and J. Ding, “Passively mode-locked fiber laser by a cell-type WS2 nanosheets saturable absorber,” Sci. Rep. 5(1), 12587 (2015).
[Crossref] [PubMed]

W. S. Kwon, H. Lee, J. H. Kim, J. Choi, K. S. Kim, and S. Kim, “Ultrashort stretched-pulse L-band laser using carbon-nanotube saturable absorber,” Opt. Express 23(6), 7779–7785 (2015).
[Crossref] [PubMed]

J. Wang, Z. Cai, P. Xu, G. Du, F. Wang, S. Ruan, Z. Sun, and T. Hasan, “Pulse dynamics in carbon nanotube mode-locked fiber lasers near zero cavity dispersion,” Opt. Express 23(8), 9947–9958 (2015).
[Crossref] [PubMed]

K. Yin, B. Zhang, L. Li, T. Jiang, X. Zhou, and J. Hou, “Soliton mode-locked fiber laser based on topological insulator Bi2Te3 nanosheets at 2 μm,” Photon. Res. 3(3), 72 (2015).
[Crossref]

J. Du, Q. Wang, G. Jiang, C. Xu, C. Zhao, Y. Xiang, Y. Chen, S. Wen, and H. Zhang, “Ytterbium-doped fiber laser passively mode locked by few-layer Molybdenum Disulfide (MoS2) saturable absorber functioned with evanescent field interaction,” Sci. Rep. 4(1), 6346 (2015).
[Crossref] [PubMed]

2014 (8)

H. Zhang, S. B. Lu, J. Zheng, J. Du, S. C. Wen, D. Y. Tang, and K. P. Loh, “Molybdenum disulfide (MoS2) as a broadband saturable absorber for ultra-fast photonics,” Opt. Express 22(6), 7249–7260 (2014).
[Crossref] [PubMed]

H. Jeong, S. Y. Choi, F. Rotermund, Y. H. Cha, D. Y. Jeong, and D. I. Yeom, “All-fiber mode-locked laser oscillator with pulse energy of 34 nJ using a single-walled carbon nanotube saturable absorber,” Opt. Express 22(19), 22667–22672 (2014).
[Crossref] [PubMed]

X. Li, Y. Wang, Y. Wang, W. Zhao, X. Yu, Z. Sun, X. Cheng, X. Yu, Y. Zhang, and Q. J. Wang, “Nonlinear absorption of SWNT film and its effects to the operation state of pulsed fiber laser,” Opt. Express 22(14), 17227–17235 (2014).
[Crossref] [PubMed]

F. Bo, H. Yi, X. Xiaosheng, Z. Hongwei, S. Zhipei, and Y. Changxi, “Broadband Graphene Saturable Absorber for Pulsed Fiber Lasers at 1, 1.5, and 2 μm,” IEEE J. Sel. Top. Quantum Electron. 20(5), 411–415 (2014).
[Crossref]

H. R. Chen, C. Y. Tsai, H. M. Cheng, K. H. Lin, and W. F. Hsieh, “Passive mode locking of ytterbium- and erbium-doped all-fiber lasers using graphene oxide saturable absorbers,” Opt. Express 22(11), 12880–12889 (2014).
[Crossref] [PubMed]

Z. Dou, Y. Song, J. Tian, J. Liu, Z. Yu, and X. Fang, “Mode-locked ytterbium-doped fiber laser based on topological insulator: Bi2Se3,” Opt. Express 22(20), 24055–24061 (2014).
[Crossref] [PubMed]

M. Jung, J. Lee, J. Koo, J. Park, Y. W. Song, K. Lee, S. Lee, and J. H. Lee, “A femtosecond pulse fiber laser at 1935 nm using a bulk-structured Bi2Te3 topological insulator,” Opt. Express 22(7), 7865–7874 (2014).
[Crossref] [PubMed]

H. Liu, X. W. Zheng, M. Liu, N. Zhao, A. P. Luo, Z. C. Luo, W. C. Xu, H. Zhang, C. J. Zhao, and S. C. Wen, “Femtosecond pulse generation from a topological insulator mode-locked fiber laser,” Opt. Express 22(6), 6868–6873 (2014).
[Crossref] [PubMed]

2013 (4)

Z. C. Luo, M. Liu, H. Liu, X. W. Zheng, A. P. Luo, C. J. Zhao, H. Zhang, S. C. Wen, and W. C. Xu, “2 GHz passively harmonic mode-locked fiber laser by a microfiber-based topological insulator saturable absorber,” Opt. Lett. 38(24), 5212–5215 (2013).
[Crossref] [PubMed]

Z. Zhang, L. Wang, and Y. Wang, “Sub-100 fs and Passive Harmonic Mode-Locking of Dispersion-Managed Dissipative Fiber Laser With Carbon Nanotubes,” J. Lightwave Technol. 31(23), 3719–3725 (2013).
[Crossref]

Q. Wang, T. Chen, B. Zhang, M. Li, Y. Lu, and K. P. Chen, “All-fiber passively mode-locked thulium-doped fiber ring laser using optically deposited graphene saturable absorbers,” Appl. Phys. Lett. 102(13), 131117 (2013).
[Crossref]

M. Chhowalla, H. S. Shin, G. Eda, L. J. Li, K. P. Loh, and H. Zhang, “The chemistry of two-dimensional layered transition metal dichalcogenide nanosheets,” Nat. Chem. 5(4), 263–275 (2013).
[Crossref] [PubMed]

2012 (5)

J. Ma, G. Q. Xie, P. Lv, W. L. Gao, P. Yuan, L. J. Qian, H. H. Yu, H. J. Zhang, J. Y. Wang, and D. Y. Tang, “Graphene mode-locked femtosecond laser at 2 μm wavelength,” Opt. Lett. 37(11), 2085–2087 (2012).
[Crossref] [PubMed]

J. Xu, J. Liu, S. Wu, Q.-H. Yang, and P. Wang, “Graphene oxide mode-locked femtosecond erbium-doped fiber lasers,” Opt. Express 20(14), 15474–15480 (2012).
[Crossref] [PubMed]

M. A. Chernysheva, A. A. Krylov, P. G. Kryukov, N. R. Arutyunyan, A. S. Pozharov, E. D. Obraztsova, and E. M. Dianov, “Thulium-doped mode-locked all-fiber laser based on NALM and carbon nanotube saturable absorber,” Opt. Express 20(26), B124–B130 (2012).
[Crossref] [PubMed]

D. Popa, Z. Sun, T. Hasan, W. B. Cho, F. Wang, F. Torrisi, and A. C. Ferrari, “74-fs nanotube-mode-locked fiber laser,” Appl. Phys. Lett. 101(15), 153107 (2012).
[Crossref] [PubMed]

L. Xiao-Hui, W. Yong-Gang, W. Yi-Shan, H. Xiao-Hong, Z. Wei, L. Xiang-Lian, Y. Jia, G. Cun-Xiao, Z. Wei, Y. Zhi, L. Cheng, and S. De-Yuan, “Wavelength-Switchable and Wavelength-Tunable All-Normal-Dispersion Mode-Locked Yb-Doped Fiber Laser Based on Single-Walled Carbon Nanotube Wall Paper Absorber,” IEEE Photonics J. 4(1), 234–241 (2012).
[Crossref]

2011 (1)

2010 (1)

2008 (1)

Abramski, K. M.

J. Sotor, G. Sobon, W. Macherzynski, P. Paletko, and K. M. Abramski, “Black phosphorus saturable absorber for ultrashort pulse generation,” Appl. Phys. Lett. 107(5), 051108 (2015).
[Crossref]

J. Boguslawski, J. Sotor, G. Sobon, R. Kozinski, K. Librant, M. Aksienionek, L. Lipinska, and K. M. Abramski, “Graphene oxide paper as a saturable absorber for Er- and Tm-doped fiber lasers,” Photon. Res. 3(4), 119 (2015).
[Crossref]

Aiub, E. J.

Aksienionek, M.

Arutyunyan, N. R.

Bao, Q.

Bi, K.

W. Liu, L. Pang, H. Han, K. Bi, M. Lei, and Z. Wei, “Tungsten disulphide for ultrashort pulse generation in all-fiber lasers,” Nanoscale 9(18), 5806–5811 (2017).
[Crossref] [PubMed]

Bo, F.

F. Bo, H. Yi, X. Xiaosheng, Z. Hongwei, S. Zhipei, and Y. Changxi, “Broadband Graphene Saturable Absorber for Pulsed Fiber Lasers at 1, 1.5, and 2 μm,” IEEE J. Sel. Top. Quantum Electron. 20(5), 411–415 (2014).
[Crossref]

Boguslawski, J.

Byoung Yoon, K.

R. Khazaeinezhad, S. H. Kassani, J. Hwanseong, P. Kyung Jun, K. Byoung Yoon, Y. Dong-Il, and O. Kyunghwan, “Ultrafast Pulsed All-Fiber Laser Based on Tapered Fiber Enclosed by Few-Layer WS2 Nanosheets,” IEEE Photonics Technol. Lett. 27(15), 1581–1584 (2015).
[Crossref]

Cai, Z.

Cha, Y. H.

Changxi, Y.

F. Bo, H. Yi, X. Xiaosheng, Z. Hongwei, S. Zhipei, and Y. Changxi, “Broadband Graphene Saturable Absorber for Pulsed Fiber Lasers at 1, 1.5, and 2 μm,” IEEE J. Sel. Top. Quantum Electron. 20(5), 411–415 (2014).
[Crossref]

Chen, H.

J. Wang, W. Lu, J. Li, H. Chen, Z. Jiang, J. Wang, W. Zhang, M. Zhang, I. Ling Li, Z. Xu, W. Liu, and P. Yan, “Ultrafast Thulium-Doped Fiber Laser Mode Locked by Monolayer WSe2,” IEEE J. Sel. Top. Quantum Electron. 24(3), 1–6 (2018).

J. Wang, Z. Jiang, H. Chen, J. Li, J. Yin, J. Wang, T. He, P. Yan, and S. Ruan, “Magnetron-sputtering deposited WTe2 for an ultrafast thulium-doped fiber laser,” Opt. Lett. 42(23), 5010–5013 (2017).
[Crossref] [PubMed]

W. Liu, L. Pang, H. Han, W. Tian, H. Chen, M. Lei, P. Yan, and Z. Wei, “70-fs mode-locked erbium-doped fiber laser with topological insulator,” Sci. Rep. 6(1), 19997 (2016).
[Crossref] [PubMed]

P. Yan, A. Liu, Y. Chen, J. Wang, S. Ruan, H. Chen, and J. Ding, “Passively mode-locked fiber laser by a cell-type WS2 nanosheets saturable absorber,” Sci. Rep. 5(1), 12587 (2015).
[Crossref] [PubMed]

Chen, H. R.

Chen, J.

Chen, K. P.

Q. Wang, T. Chen, B. Zhang, M. Li, Y. Lu, and K. P. Chen, “All-fiber passively mode-locked thulium-doped fiber ring laser using optically deposited graphene saturable absorbers,” Appl. Phys. Lett. 102(13), 131117 (2013).
[Crossref]

Chen, S.

Chen, T.

Q. Wang, T. Chen, B. Zhang, M. Li, Y. Lu, and K. P. Chen, “All-fiber passively mode-locked thulium-doped fiber ring laser using optically deposited graphene saturable absorbers,” Appl. Phys. Lett. 102(13), 131117 (2013).
[Crossref]

Chen, Y.

J. Du, Q. Wang, G. Jiang, C. Xu, C. Zhao, Y. Xiang, Y. Chen, S. Wen, and H. Zhang, “Ytterbium-doped fiber laser passively mode locked by few-layer Molybdenum Disulfide (MoS2) saturable absorber functioned with evanescent field interaction,” Sci. Rep. 4(1), 6346 (2015).
[Crossref] [PubMed]

P. Yan, A. Liu, Y. Chen, J. Wang, S. Ruan, H. Chen, and J. Ding, “Passively mode-locked fiber laser by a cell-type WS2 nanosheets saturable absorber,” Sci. Rep. 5(1), 12587 (2015).
[Crossref] [PubMed]

Cheng, H. M.

Cheng, L.

L. Xiao-Hui, W. Yong-Gang, W. Yi-Shan, H. Xiao-Hong, Z. Wei, L. Xiang-Lian, Y. Jia, G. Cun-Xiao, Z. Wei, Y. Zhi, L. Cheng, and S. De-Yuan, “Wavelength-Switchable and Wavelength-Tunable All-Normal-Dispersion Mode-Locked Yb-Doped Fiber Laser Based on Single-Walled Carbon Nanotube Wall Paper Absorber,” IEEE Photonics J. 4(1), 234–241 (2012).
[Crossref]

Cheng, X.

Cheng, Z.

Chernov, A. I.

Chernysheva, M. A.

Chhowalla, M.

M. Chhowalla, H. S. Shin, G. Eda, L. J. Li, K. P. Loh, and H. Zhang, “The chemistry of two-dimensional layered transition metal dichalcogenide nanosheets,” Nat. Chem. 5(4), 263–275 (2013).
[Crossref] [PubMed]

Cho, W. B.

D. Popa, Z. Sun, T. Hasan, W. B. Cho, F. Wang, F. Torrisi, and A. C. Ferrari, “74-fs nanotube-mode-locked fiber laser,” Appl. Phys. Lett. 101(15), 153107 (2012).
[Crossref] [PubMed]

Choi, J.

Choi, S. Y.

Cui, X.

D. Mao, X. She, B. Du, D. Yang, W. Zhang, K. Song, X. Cui, B. Jiang, T. Peng, and J. Zhao, “Erbium-doped fiber laser passively mode locked with few-layer WSe2/MoSe2 nanosheets,” Sci. Rep. 6(1), 23583 (2016).
[Crossref] [PubMed]

Cui, Y.

Y. Cui, F. Lu, and X. Liu, “MoS2-clad microfibre laser delivering conventional, dispersion-managed and dissipative solitons,” Sci. Rep. 6(1), 30524 (2016).
[Crossref] [PubMed]

Cun-Xiao, G.

L. Xiao-Hui, W. Yong-Gang, W. Yi-Shan, H. Xiao-Hong, Z. Wei, L. Xiang-Lian, Y. Jia, G. Cun-Xiao, Z. Wei, Y. Zhi, L. Cheng, and S. De-Yuan, “Wavelength-Switchable and Wavelength-Tunable All-Normal-Dispersion Mode-Locked Yb-Doped Fiber Laser Based on Single-Walled Carbon Nanotube Wall Paper Absorber,” IEEE Photonics J. 4(1), 234–241 (2012).
[Crossref]

Delfyett, P. J.

De-Yuan, S.

L. Xiao-Hui, W. Yong-Gang, W. Yi-Shan, H. Xiao-Hong, Z. Wei, L. Xiang-Lian, Y. Jia, G. Cun-Xiao, Z. Wei, Y. Zhi, L. Cheng, and S. De-Yuan, “Wavelength-Switchable and Wavelength-Tunable All-Normal-Dispersion Mode-Locked Yb-Doped Fiber Laser Based on Single-Walled Carbon Nanotube Wall Paper Absorber,” IEEE Photonics J. 4(1), 234–241 (2012).
[Crossref]

Dianov, E. M.

Ding, J.

P. Yan, A. Liu, Y. Chen, J. Wang, S. Ruan, H. Chen, and J. Ding, “Passively mode-locked fiber laser by a cell-type WS2 nanosheets saturable absorber,” Sci. Rep. 5(1), 12587 (2015).
[Crossref] [PubMed]

Dong-Il, Y.

R. Khazaeinezhad, S. H. Kassani, J. Hwanseong, P. Kyung Jun, K. Byoung Yoon, Y. Dong-Il, and O. Kyunghwan, “Ultrafast Pulsed All-Fiber Laser Based on Tapered Fiber Enclosed by Few-Layer WS2 Nanosheets,” IEEE Photonics Technol. Lett. 27(15), 1581–1584 (2015).
[Crossref]

Dou, Z.

H. Guoyu, Y. Song, K. Li, Z. Dou, J. Tian, and X. Zhang, “Mode-locked ytterbium-doped fiber laser based on tungsten disulphide,” Laser Phys. Lett. 12(12), 125102 (2015).
[Crossref]

Z. Dou, Y. Song, J. Tian, J. Liu, Z. Yu, and X. Fang, “Mode-locked ytterbium-doped fiber laser based on topological insulator: Bi2Se3,” Opt. Express 22(20), 24055–24061 (2014).
[Crossref] [PubMed]

Du, B.

D. Mao, X. She, B. Du, D. Yang, W. Zhang, K. Song, X. Cui, B. Jiang, T. Peng, and J. Zhao, “Erbium-doped fiber laser passively mode locked with few-layer WSe2/MoSe2 nanosheets,” Sci. Rep. 6(1), 23583 (2016).
[Crossref] [PubMed]

Du, G.

Du, J.

J. Du, Q. Wang, G. Jiang, C. Xu, C. Zhao, Y. Xiang, Y. Chen, S. Wen, and H. Zhang, “Ytterbium-doped fiber laser passively mode locked by few-layer Molybdenum Disulfide (MoS2) saturable absorber functioned with evanescent field interaction,” Sci. Rep. 4(1), 6346 (2015).
[Crossref] [PubMed]

H. Zhang, S. B. Lu, J. Zheng, J. Du, S. C. Wen, D. Y. Tang, and K. P. Loh, “Molybdenum disulfide (MoS2) as a broadband saturable absorber for ultra-fast photonics,” Opt. Express 22(6), 7249–7260 (2014).
[Crossref] [PubMed]

Duan, L.

Eda, G.

M. Chhowalla, H. S. Shin, G. Eda, L. J. Li, K. P. Loh, and H. Zhang, “The chemistry of two-dimensional layered transition metal dichalcogenide nanosheets,” Nat. Chem. 5(4), 263–275 (2013).
[Crossref] [PubMed]

Fang, S.

Fang, X.

Ferrari, A. C.

D. Popa, Z. Sun, T. Hasan, W. B. Cho, F. Wang, F. Torrisi, and A. C. Ferrari, “74-fs nanotube-mode-locked fiber laser,” Appl. Phys. Lett. 101(15), 153107 (2012).
[Crossref] [PubMed]

Gan, X.

Gao, W. L.

Guoyu, H.

H. Guoyu, Y. Song, K. Li, Z. Dou, J. Tian, and X. Zhang, “Mode-locked ytterbium-doped fiber laser based on tungsten disulphide,” Laser Phys. Lett. 12(12), 125102 (2015).
[Crossref]

Han, H.

W. Liu, L. Pang, H. Han, K. Bi, M. Lei, and Z. Wei, “Tungsten disulphide for ultrashort pulse generation in all-fiber lasers,” Nanoscale 9(18), 5806–5811 (2017).
[Crossref] [PubMed]

W. Liu, L. Pang, H. Han, M. Liu, M. Lei, S. Fang, H. Teng, and Z. Wei, “Tungsten disulfide saturable absorbers for 67 fs mode-locked erbium-doped fiber lasers,” Opt. Express 25(3), 2950–2959 (2017).
[Crossref] [PubMed]

W. Liu, L. Pang, H. Han, W. Tian, H. Chen, M. Lei, P. Yan, and Z. Wei, “70-fs mode-locked erbium-doped fiber laser with topological insulator,” Sci. Rep. 6(1), 19997 (2016).
[Crossref] [PubMed]

Han, L.

D. Mao, Y. Wang, C. Ma, L. Han, B. Jiang, X. Gan, S. Hua, W. Zhang, T. Mei, and J. Zhao, “WS2 mode-locked ultrafast fiber laser,” Sci. Rep. 5(1), 7965 (2015).
[Crossref] [PubMed]

Hasan, T.

J. Wang, Z. Cai, P. Xu, G. Du, F. Wang, S. Ruan, Z. Sun, and T. Hasan, “Pulse dynamics in carbon nanotube mode-locked fiber lasers near zero cavity dispersion,” Opt. Express 23(8), 9947–9958 (2015).
[Crossref] [PubMed]

D. Popa, Z. Sun, T. Hasan, W. B. Cho, F. Wang, F. Torrisi, and A. C. Ferrari, “74-fs nanotube-mode-locked fiber laser,” Appl. Phys. Lett. 101(15), 153107 (2012).
[Crossref] [PubMed]

He, T.

Hernandez-Romano, I.

Hongwei, Z.

F. Bo, H. Yi, X. Xiaosheng, Z. Hongwei, S. Zhipei, and Y. Changxi, “Broadband Graphene Saturable Absorber for Pulsed Fiber Lasers at 1, 1.5, and 2 μm,” IEEE J. Sel. Top. Quantum Electron. 20(5), 411–415 (2014).
[Crossref]

Hosseinzadeh Kassani, S.

Hou, J.

Hsieh, W. F.

Hua, S.

D. Mao, Y. Wang, C. Ma, L. Han, B. Jiang, X. Gan, S. Hua, W. Zhang, T. Mei, and J. Zhao, “WS2 mode-locked ultrafast fiber laser,” Sci. Rep. 5(1), 7965 (2015).
[Crossref] [PubMed]

Huang, Y.

Hwanseong, J.

R. Khazaeinezhad, S. H. Kassani, J. Hwanseong, P. Kyung Jun, K. Byoung Yoon, Y. Dong-Il, and O. Kyunghwan, “Ultrafast Pulsed All-Fiber Laser Based on Tapered Fiber Enclosed by Few-Layer WS2 Nanosheets,” IEEE Photonics Technol. Lett. 27(15), 1581–1584 (2015).
[Crossref]

Jeong, D. Y.

Jeong, H.

Jhon, Y. M.

Jia, Y.

L. Xiao-Hui, W. Yong-Gang, W. Yi-Shan, H. Xiao-Hong, Z. Wei, L. Xiang-Lian, Y. Jia, G. Cun-Xiao, Z. Wei, Y. Zhi, L. Cheng, and S. De-Yuan, “Wavelength-Switchable and Wavelength-Tunable All-Normal-Dispersion Mode-Locked Yb-Doped Fiber Laser Based on Single-Walled Carbon Nanotube Wall Paper Absorber,” IEEE Photonics J. 4(1), 234–241 (2012).
[Crossref]

Jiang, B.

D. Mao, X. She, B. Du, D. Yang, W. Zhang, K. Song, X. Cui, B. Jiang, T. Peng, and J. Zhao, “Erbium-doped fiber laser passively mode locked with few-layer WSe2/MoSe2 nanosheets,” Sci. Rep. 6(1), 23583 (2016).
[Crossref] [PubMed]

D. Mao, Y. Wang, C. Ma, L. Han, B. Jiang, X. Gan, S. Hua, W. Zhang, T. Mei, and J. Zhao, “WS2 mode-locked ultrafast fiber laser,” Sci. Rep. 5(1), 7965 (2015).
[Crossref] [PubMed]

Jiang, G.

J. Du, Q. Wang, G. Jiang, C. Xu, C. Zhao, Y. Xiang, Y. Chen, S. Wen, and H. Zhang, “Ytterbium-doped fiber laser passively mode locked by few-layer Molybdenum Disulfide (MoS2) saturable absorber functioned with evanescent field interaction,” Sci. Rep. 4(1), 6346 (2015).
[Crossref] [PubMed]

Jiang, S.

Jiang, T.

Jiang, Z.

J. Wang, W. Lu, J. Li, H. Chen, Z. Jiang, J. Wang, W. Zhang, M. Zhang, I. Ling Li, Z. Xu, W. Liu, and P. Yan, “Ultrafast Thulium-Doped Fiber Laser Mode Locked by Monolayer WSe2,” IEEE J. Sel. Top. Quantum Electron. 24(3), 1–6 (2018).

J. Wang, Z. Jiang, H. Chen, J. Li, J. Yin, J. Wang, T. He, P. Yan, and S. Ruan, “Magnetron-sputtering deposited WTe2 for an ultrafast thulium-doped fiber laser,” Opt. Lett. 42(23), 5010–5013 (2017).
[Crossref] [PubMed]

Jung, M.

Kassani, S. H.

R. Khazaeinezhad, S. H. Kassani, J. Hwanseong, P. Kyung Jun, K. Byoung Yoon, Y. Dong-Il, and O. Kyunghwan, “Ultrafast Pulsed All-Fiber Laser Based on Tapered Fiber Enclosed by Few-Layer WS2 Nanosheets,” IEEE Photonics Technol. Lett. 27(15), 1581–1584 (2015).
[Crossref]

Khazaeinezhad, R.

R. Khazaeinezhad, S. H. Kassani, J. Hwanseong, P. Kyung Jun, K. Byoung Yoon, Y. Dong-Il, and O. Kyunghwan, “Ultrafast Pulsed All-Fiber Laser Based on Tapered Fiber Enclosed by Few-Layer WS2 Nanosheets,” IEEE Photonics Technol. Lett. 27(15), 1581–1584 (2015).
[Crossref]

R. Khazaeinezhad, S. Hosseinzadeh Kassani, H. Jeong, D.-I. Yeom, and K. Oh, “Femtosecond Soliton Pulse Generation Using Evanescent Field Interaction Through Tungsten Disulfide (WS2) Film,” J. Lightwave Technol. 33(17), 3550–3557 (2015).
[Crossref]

Kim, J. H.

Kim, K. S.

Kim, S.

Konov, V. I.

Koo, J.

Kowalczyk, M.

Kozinski, R.

Krajewska, A.

Krylov, A. A.

Kryukov, P. G.

Kwon, W. S.

Kyung Jun, P.

R. Khazaeinezhad, S. H. Kassani, J. Hwanseong, P. Kyung Jun, K. Byoung Yoon, Y. Dong-Il, and O. Kyunghwan, “Ultrafast Pulsed All-Fiber Laser Based on Tapered Fiber Enclosed by Few-Layer WS2 Nanosheets,” IEEE Photonics Technol. Lett. 27(15), 1581–1584 (2015).
[Crossref]

Kyunghwan, O.

R. Khazaeinezhad, S. H. Kassani, J. Hwanseong, P. Kyung Jun, K. Byoung Yoon, Y. Dong-Il, and O. Kyunghwan, “Ultrafast Pulsed All-Fiber Laser Based on Tapered Fiber Enclosed by Few-Layer WS2 Nanosheets,” IEEE Photonics Technol. Lett. 27(15), 1581–1584 (2015).
[Crossref]

Lee, H.

Lee, J.

Lee, J. H.

Lee, K.

Lee, S.

Lei, M.

W. Liu, L. Pang, H. Han, K. Bi, M. Lei, and Z. Wei, “Tungsten disulphide for ultrashort pulse generation in all-fiber lasers,” Nanoscale 9(18), 5806–5811 (2017).
[Crossref] [PubMed]

W. Liu, L. Pang, H. Han, M. Liu, M. Lei, S. Fang, H. Teng, and Z. Wei, “Tungsten disulfide saturable absorbers for 67 fs mode-locked erbium-doped fiber lasers,” Opt. Express 25(3), 2950–2959 (2017).
[Crossref] [PubMed]

W. Liu, L. Pang, H. Han, W. Tian, H. Chen, M. Lei, P. Yan, and Z. Wei, “70-fs mode-locked erbium-doped fiber laser with topological insulator,” Sci. Rep. 6(1), 19997 (2016).
[Crossref] [PubMed]

Li, H.

Li, J.

J. Wang, W. Lu, J. Li, H. Chen, Z. Jiang, J. Wang, W. Zhang, M. Zhang, I. Ling Li, Z. Xu, W. Liu, and P. Yan, “Ultrafast Thulium-Doped Fiber Laser Mode Locked by Monolayer WSe2,” IEEE J. Sel. Top. Quantum Electron. 24(3), 1–6 (2018).

J. Wang, Z. Jiang, H. Chen, J. Li, J. Yin, J. Wang, T. He, P. Yan, and S. Ruan, “Magnetron-sputtering deposited WTe2 for an ultrafast thulium-doped fiber laser,” Opt. Lett. 42(23), 5010–5013 (2017).
[Crossref] [PubMed]

Li, K.

H. Guoyu, Y. Song, K. Li, Z. Dou, J. Tian, and X. Zhang, “Mode-locked ytterbium-doped fiber laser based on tungsten disulphide,” Laser Phys. Lett. 12(12), 125102 (2015).
[Crossref]

Li, L.

Li, L. J.

M. Chhowalla, H. S. Shin, G. Eda, L. J. Li, K. P. Loh, and H. Zhang, “The chemistry of two-dimensional layered transition metal dichalcogenide nanosheets,” Nat. Chem. 5(4), 263–275 (2013).
[Crossref] [PubMed]

Li, M.

Q. Wang, T. Chen, B. Zhang, M. Li, Y. Lu, and K. P. Chen, “All-fiber passively mode-locked thulium-doped fiber ring laser using optically deposited graphene saturable absorbers,” Appl. Phys. Lett. 102(13), 131117 (2013).
[Crossref]

Li, X.

Li, Y.

Li, Z.

Librant, K.

Lin, K. H.

Ling Li, I.

J. Wang, W. Lu, J. Li, H. Chen, Z. Jiang, J. Wang, W. Zhang, M. Zhang, I. Ling Li, Z. Xu, W. Liu, and P. Yan, “Ultrafast Thulium-Doped Fiber Laser Mode Locked by Monolayer WSe2,” IEEE J. Sel. Top. Quantum Electron. 24(3), 1–6 (2018).

Lipinska, L.

Liu, A.

P. Yan, A. Liu, Y. Chen, J. Wang, S. Ruan, H. Chen, and J. Ding, “Passively mode-locked fiber laser by a cell-type WS2 nanosheets saturable absorber,” Sci. Rep. 5(1), 12587 (2015).
[Crossref] [PubMed]

Liu, H.

Liu, J.

Liu, M.

Liu, W.

J. Wang, W. Lu, J. Li, H. Chen, Z. Jiang, J. Wang, W. Zhang, M. Zhang, I. Ling Li, Z. Xu, W. Liu, and P. Yan, “Ultrafast Thulium-Doped Fiber Laser Mode Locked by Monolayer WSe2,” IEEE J. Sel. Top. Quantum Electron. 24(3), 1–6 (2018).

W. Liu, L. Pang, H. Han, K. Bi, M. Lei, and Z. Wei, “Tungsten disulphide for ultrashort pulse generation in all-fiber lasers,” Nanoscale 9(18), 5806–5811 (2017).
[Crossref] [PubMed]

W. Liu, L. Pang, H. Han, M. Liu, M. Lei, S. Fang, H. Teng, and Z. Wei, “Tungsten disulfide saturable absorbers for 67 fs mode-locked erbium-doped fiber lasers,” Opt. Express 25(3), 2950–2959 (2017).
[Crossref] [PubMed]

W. Liu, L. Pang, H. Han, W. Tian, H. Chen, M. Lei, P. Yan, and Z. Wei, “70-fs mode-locked erbium-doped fiber laser with topological insulator,” Sci. Rep. 6(1), 19997 (2016).
[Crossref] [PubMed]

Liu, X.

Y. Cui, F. Lu, and X. Liu, “MoS2-clad microfibre laser delivering conventional, dispersion-managed and dissipative solitons,” Sci. Rep. 6(1), 30524 (2016).
[Crossref] [PubMed]

Lobach, A. S.

Loh, K. P.

Lu, F.

Y. Cui, F. Lu, and X. Liu, “MoS2-clad microfibre laser delivering conventional, dispersion-managed and dissipative solitons,” Sci. Rep. 6(1), 30524 (2016).
[Crossref] [PubMed]

Lu, S. B.

Lu, W.

J. Wang, W. Lu, J. Li, H. Chen, Z. Jiang, J. Wang, W. Zhang, M. Zhang, I. Ling Li, Z. Xu, W. Liu, and P. Yan, “Ultrafast Thulium-Doped Fiber Laser Mode Locked by Monolayer WSe2,” IEEE J. Sel. Top. Quantum Electron. 24(3), 1–6 (2018).

Lu, Y.

Q. Wang, T. Chen, B. Zhang, M. Li, Y. Lu, and K. P. Chen, “All-fiber passively mode-locked thulium-doped fiber ring laser using optically deposited graphene saturable absorbers,” Appl. Phys. Lett. 102(13), 131117 (2013).
[Crossref]

Luo, A. P.

Luo, Z.

Luo, Z. C.

Lv, P.

Ma, C.

D. Mao, Y. Wang, C. Ma, L. Han, B. Jiang, X. Gan, S. Hua, W. Zhang, T. Mei, and J. Zhao, “WS2 mode-locked ultrafast fiber laser,” Sci. Rep. 5(1), 7965 (2015).
[Crossref] [PubMed]

Ma, J.

Macherzynski, W.

J. Sotor, G. Sobon, W. Macherzynski, P. Paletko, and K. M. Abramski, “Black phosphorus saturable absorber for ultrashort pulse generation,” Appl. Phys. Lett. 107(5), 051108 (2015).
[Crossref]

Man, B.

Mandridis, D.

Mao, D.

D. Mao, X. She, B. Du, D. Yang, W. Zhang, K. Song, X. Cui, B. Jiang, T. Peng, and J. Zhao, “Erbium-doped fiber laser passively mode locked with few-layer WSe2/MoSe2 nanosheets,” Sci. Rep. 6(1), 23583 (2016).
[Crossref] [PubMed]

D. Mao, Y. Wang, C. Ma, L. Han, B. Jiang, X. Gan, S. Hua, W. Zhang, T. Mei, and J. Zhao, “WS2 mode-locked ultrafast fiber laser,” Sci. Rep. 5(1), 7965 (2015).
[Crossref] [PubMed]

L. Li, S. Jiang, Y. Wang, X. Wang, L. Duan, D. Mao, Z. Li, B. Man, and J. Si, “WS2/fluorine mica (FM) saturable absorbers for all-normal-dispersion mode-locked fiber laser,” Opt. Express 23(22), 28698–28706 (2015).
[Crossref] [PubMed]

D. Mao, S. Zhang, Y. Wang, X. Gan, W. Zhang, T. Mei, Y. Wang, Y. Wang, H. Zeng, and J. Zhao, “WS2 saturable absorber for dissipative soliton mode locking at 1.06 and 1.55 microm,” Opt. Express 23(21), 27509–27519 (2015).
[Crossref] [PubMed]

Mars, K.

May-Arrioja, D. A.

Mei, T.

Meng, B.

X. Li, K. Wu, Z. Sun, B. Meng, Y. Wang, Y. Wang, X. Yu, X. Yu, Y. Zhang, P. P. Shum, and Q. J. Wang, “Single-wall carbon nanotubes and graphene oxide-based saturable absorbers for low phase noise mode-locked fiber lasers,” Sci. Rep. 6(1), 25266 (2016).
[Crossref] [PubMed]

Mikula, A.

Obraztsova, E. D.

Oh, K.

Paletko, P.

J. Sotor, G. Sobon, W. Macherzynski, P. Paletko, and K. M. Abramski, “Black phosphorus saturable absorber for ultrashort pulse generation,” Appl. Phys. Lett. 107(5), 051108 (2015).
[Crossref]

Pang, L.

W. Liu, L. Pang, H. Han, K. Bi, M. Lei, and Z. Wei, “Tungsten disulphide for ultrashort pulse generation in all-fiber lasers,” Nanoscale 9(18), 5806–5811 (2017).
[Crossref] [PubMed]

W. Liu, L. Pang, H. Han, M. Liu, M. Lei, S. Fang, H. Teng, and Z. Wei, “Tungsten disulfide saturable absorbers for 67 fs mode-locked erbium-doped fiber lasers,” Opt. Express 25(3), 2950–2959 (2017).
[Crossref] [PubMed]

W. Liu, L. Pang, H. Han, W. Tian, H. Chen, M. Lei, P. Yan, and Z. Wei, “70-fs mode-locked erbium-doped fiber laser with topological insulator,” Sci. Rep. 6(1), 19997 (2016).
[Crossref] [PubMed]

Park, J.

Pasternak, I.

Peng, J.

Peng, T.

D. Mao, X. She, B. Du, D. Yang, W. Zhang, K. Song, X. Cui, B. Jiang, T. Peng, and J. Zhao, “Erbium-doped fiber laser passively mode locked with few-layer WSe2/MoSe2 nanosheets,” Sci. Rep. 6(1), 23583 (2016).
[Crossref] [PubMed]

Popa, D.

D. Popa, Z. Sun, T. Hasan, W. B. Cho, F. Wang, F. Torrisi, and A. C. Ferrari, “74-fs nanotube-mode-locked fiber laser,” Appl. Phys. Lett. 101(15), 153107 (2012).
[Crossref] [PubMed]

Pozharov, A. S.

Qian, L. J.

Ren, J.

Rotermund, F.

Ruan, S.

Saito, L. A. M.

Sanchez-Mondragon, J. J.

She, X.

D. Mao, X. She, B. Du, D. Yang, W. Zhang, K. Song, X. Cui, B. Jiang, T. Peng, and J. Zhao, “Erbium-doped fiber laser passively mode locked with few-layer WSe2/MoSe2 nanosheets,” Sci. Rep. 6(1), 23583 (2016).
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Shi, H.

Shin, H. S.

M. Chhowalla, H. S. Shin, G. Eda, L. J. Li, K. P. Loh, and H. Zhang, “The chemistry of two-dimensional layered transition metal dichalcogenide nanosheets,” Nat. Chem. 5(4), 263–275 (2013).
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Shum, P. P.

X. Li, K. Wu, Z. Sun, B. Meng, Y. Wang, Y. Wang, X. Yu, X. Yu, Y. Zhang, P. P. Shum, and Q. J. Wang, “Single-wall carbon nanotubes and graphene oxide-based saturable absorbers for low phase noise mode-locked fiber lasers,” Sci. Rep. 6(1), 25266 (2016).
[Crossref] [PubMed]

Si, J.

Sobon, G.

Solodyankin, M. A.

Song, K.

D. Mao, X. She, B. Du, D. Yang, W. Zhang, K. Song, X. Cui, B. Jiang, T. Peng, and J. Zhao, “Erbium-doped fiber laser passively mode locked with few-layer WSe2/MoSe2 nanosheets,” Sci. Rep. 6(1), 23583 (2016).
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Song, Y.

Song, Y. W.

Sotor, J.

Steinberg, D.

Strupinski, W.

Sun, Z.

X. Li, K. Wu, Z. Sun, B. Meng, Y. Wang, Y. Wang, X. Yu, X. Yu, Y. Zhang, P. P. Shum, and Q. J. Wang, “Single-wall carbon nanotubes and graphene oxide-based saturable absorbers for low phase noise mode-locked fiber lasers,” Sci. Rep. 6(1), 25266 (2016).
[Crossref] [PubMed]

J. Wang, Z. Cai, P. Xu, G. Du, F. Wang, S. Ruan, Z. Sun, and T. Hasan, “Pulse dynamics in carbon nanotube mode-locked fiber lasers near zero cavity dispersion,” Opt. Express 23(8), 9947–9958 (2015).
[Crossref] [PubMed]

X. Li, Y. Wang, Y. Wang, W. Zhao, X. Yu, Z. Sun, X. Cheng, X. Yu, Y. Zhang, and Q. J. Wang, “Nonlinear absorption of SWNT film and its effects to the operation state of pulsed fiber laser,” Opt. Express 22(14), 17227–17235 (2014).
[Crossref] [PubMed]

D. Popa, Z. Sun, T. Hasan, W. B. Cho, F. Wang, F. Torrisi, and A. C. Ferrari, “74-fs nanotube-mode-locked fiber laser,” Appl. Phys. Lett. 101(15), 153107 (2012).
[Crossref] [PubMed]

Tang, D.

Tang, D. Y.

Tausenev, A. V.

Teng, H.

Thoroh de Souza, E. A.

Tian, J.

H. Guoyu, Y. Song, K. Li, Z. Dou, J. Tian, and X. Zhang, “Mode-locked ytterbium-doped fiber laser based on tungsten disulphide,” Laser Phys. Lett. 12(12), 125102 (2015).
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Z. Dou, Y. Song, J. Tian, J. Liu, Z. Yu, and X. Fang, “Mode-locked ytterbium-doped fiber laser based on topological insulator: Bi2Se3,” Opt. Express 22(20), 24055–24061 (2014).
[Crossref] [PubMed]

Tian, W.

W. Liu, L. Pang, H. Han, W. Tian, H. Chen, M. Lei, P. Yan, and Z. Wei, “70-fs mode-locked erbium-doped fiber laser with topological insulator,” Sci. Rep. 6(1), 19997 (2016).
[Crossref] [PubMed]

Torrisi, F.

D. Popa, Z. Sun, T. Hasan, W. B. Cho, F. Wang, F. Torrisi, and A. C. Ferrari, “74-fs nanotube-mode-locked fiber laser,” Appl. Phys. Lett. 101(15), 153107 (2012).
[Crossref] [PubMed]

Tsai, C. Y.

Wan, X.

Wang, F.

J. Wang, Z. Cai, P. Xu, G. Du, F. Wang, S. Ruan, Z. Sun, and T. Hasan, “Pulse dynamics in carbon nanotube mode-locked fiber lasers near zero cavity dispersion,” Opt. Express 23(8), 9947–9958 (2015).
[Crossref] [PubMed]

D. Popa, Z. Sun, T. Hasan, W. B. Cho, F. Wang, F. Torrisi, and A. C. Ferrari, “74-fs nanotube-mode-locked fiber laser,” Appl. Phys. Lett. 101(15), 153107 (2012).
[Crossref] [PubMed]

Wang, J.

J. Wang, W. Lu, J. Li, H. Chen, Z. Jiang, J. Wang, W. Zhang, M. Zhang, I. Ling Li, Z. Xu, W. Liu, and P. Yan, “Ultrafast Thulium-Doped Fiber Laser Mode Locked by Monolayer WSe2,” IEEE J. Sel. Top. Quantum Electron. 24(3), 1–6 (2018).

J. Wang, W. Lu, J. Li, H. Chen, Z. Jiang, J. Wang, W. Zhang, M. Zhang, I. Ling Li, Z. Xu, W. Liu, and P. Yan, “Ultrafast Thulium-Doped Fiber Laser Mode Locked by Monolayer WSe2,” IEEE J. Sel. Top. Quantum Electron. 24(3), 1–6 (2018).

J. Wang, Z. Jiang, H. Chen, J. Li, J. Yin, J. Wang, T. He, P. Yan, and S. Ruan, “Magnetron-sputtering deposited WTe2 for an ultrafast thulium-doped fiber laser,” Opt. Lett. 42(23), 5010–5013 (2017).
[Crossref] [PubMed]

J. Wang, Z. Jiang, H. Chen, J. Li, J. Yin, J. Wang, T. He, P. Yan, and S. Ruan, “Magnetron-sputtering deposited WTe2 for an ultrafast thulium-doped fiber laser,” Opt. Lett. 42(23), 5010–5013 (2017).
[Crossref] [PubMed]

P. Yan, A. Liu, Y. Chen, J. Wang, S. Ruan, H. Chen, and J. Ding, “Passively mode-locked fiber laser by a cell-type WS2 nanosheets saturable absorber,” Sci. Rep. 5(1), 12587 (2015).
[Crossref] [PubMed]

K. Wu, X. Zhang, J. Wang, and J. Chen, “463-MHz fundamental mode-locked fiber laser based on few-layer MoS2 saturable absorber,” Opt. Lett. 40(7), 1374–1377 (2015).
[Crossref] [PubMed]

J. Wang, Z. Cai, P. Xu, G. Du, F. Wang, S. Ruan, Z. Sun, and T. Hasan, “Pulse dynamics in carbon nanotube mode-locked fiber lasers near zero cavity dispersion,” Opt. Express 23(8), 9947–9958 (2015).
[Crossref] [PubMed]

K. Wu, X. Zhang, J. Wang, X. Li, and J. Chen, “WS2 as a saturable absorber for ultrafast photonic applications of mode-locked and Q-switched lasers,” Opt. Express 23(9), 11453–11461 (2015).
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Wang, J. Y.

Wang, L.

Wang, P.

Wang, Q.

J. Du, Q. Wang, G. Jiang, C. Xu, C. Zhao, Y. Xiang, Y. Chen, S. Wen, and H. Zhang, “Ytterbium-doped fiber laser passively mode locked by few-layer Molybdenum Disulfide (MoS2) saturable absorber functioned with evanescent field interaction,” Sci. Rep. 4(1), 6346 (2015).
[Crossref] [PubMed]

Q. Wang, T. Chen, B. Zhang, M. Li, Y. Lu, and K. P. Chen, “All-fiber passively mode-locked thulium-doped fiber ring laser using optically deposited graphene saturable absorbers,” Appl. Phys. Lett. 102(13), 131117 (2013).
[Crossref]

Wang, Q. J.

X. Li, K. Wu, Z. Sun, B. Meng, Y. Wang, Y. Wang, X. Yu, X. Yu, Y. Zhang, P. P. Shum, and Q. J. Wang, “Single-wall carbon nanotubes and graphene oxide-based saturable absorbers for low phase noise mode-locked fiber lasers,” Sci. Rep. 6(1), 25266 (2016).
[Crossref] [PubMed]

X. Li, Y. Wang, Y. Wang, W. Zhao, X. Yu, Z. Sun, X. Cheng, X. Yu, Y. Zhang, and Q. J. Wang, “Nonlinear absorption of SWNT film and its effects to the operation state of pulsed fiber laser,” Opt. Express 22(14), 17227–17235 (2014).
[Crossref] [PubMed]

Wang, X.

Wang, Y.

X. Li, K. Wu, Z. Sun, B. Meng, Y. Wang, Y. Wang, X. Yu, X. Yu, Y. Zhang, P. P. Shum, and Q. J. Wang, “Single-wall carbon nanotubes and graphene oxide-based saturable absorbers for low phase noise mode-locked fiber lasers,” Sci. Rep. 6(1), 25266 (2016).
[Crossref] [PubMed]

X. Li, K. Wu, Z. Sun, B. Meng, Y. Wang, Y. Wang, X. Yu, X. Yu, Y. Zhang, P. P. Shum, and Q. J. Wang, “Single-wall carbon nanotubes and graphene oxide-based saturable absorbers for low phase noise mode-locked fiber lasers,” Sci. Rep. 6(1), 25266 (2016).
[Crossref] [PubMed]

D. Mao, Y. Wang, C. Ma, L. Han, B. Jiang, X. Gan, S. Hua, W. Zhang, T. Mei, and J. Zhao, “WS2 mode-locked ultrafast fiber laser,” Sci. Rep. 5(1), 7965 (2015).
[Crossref] [PubMed]

L. Li, S. Jiang, Y. Wang, X. Wang, L. Duan, D. Mao, Z. Li, B. Man, and J. Si, “WS2/fluorine mica (FM) saturable absorbers for all-normal-dispersion mode-locked fiber laser,” Opt. Express 23(22), 28698–28706 (2015).
[Crossref] [PubMed]

D. Mao, S. Zhang, Y. Wang, X. Gan, W. Zhang, T. Mei, Y. Wang, Y. Wang, H. Zeng, and J. Zhao, “WS2 saturable absorber for dissipative soliton mode locking at 1.06 and 1.55 microm,” Opt. Express 23(21), 27509–27519 (2015).
[Crossref] [PubMed]

D. Mao, S. Zhang, Y. Wang, X. Gan, W. Zhang, T. Mei, Y. Wang, Y. Wang, H. Zeng, and J. Zhao, “WS2 saturable absorber for dissipative soliton mode locking at 1.06 and 1.55 microm,” Opt. Express 23(21), 27509–27519 (2015).
[Crossref] [PubMed]

D. Mao, S. Zhang, Y. Wang, X. Gan, W. Zhang, T. Mei, Y. Wang, Y. Wang, H. Zeng, and J. Zhao, “WS2 saturable absorber for dissipative soliton mode locking at 1.06 and 1.55 microm,” Opt. Express 23(21), 27509–27519 (2015).
[Crossref] [PubMed]

X. Li, Y. Wang, Y. Wang, W. Zhao, X. Yu, Z. Sun, X. Cheng, X. Yu, Y. Zhang, and Q. J. Wang, “Nonlinear absorption of SWNT film and its effects to the operation state of pulsed fiber laser,” Opt. Express 22(14), 17227–17235 (2014).
[Crossref] [PubMed]

X. Li, Y. Wang, Y. Wang, W. Zhao, X. Yu, Z. Sun, X. Cheng, X. Yu, Y. Zhang, and Q. J. Wang, “Nonlinear absorption of SWNT film and its effects to the operation state of pulsed fiber laser,” Opt. Express 22(14), 17227–17235 (2014).
[Crossref] [PubMed]

Z. Zhang, L. Wang, and Y. Wang, “Sub-100 fs and Passive Harmonic Mode-Locking of Dispersion-Managed Dissipative Fiber Laser With Carbon Nanotubes,” J. Lightwave Technol. 31(23), 3719–3725 (2013).
[Crossref]

Wei, Z.

W. Liu, L. Pang, H. Han, K. Bi, M. Lei, and Z. Wei, “Tungsten disulphide for ultrashort pulse generation in all-fiber lasers,” Nanoscale 9(18), 5806–5811 (2017).
[Crossref] [PubMed]

W. Liu, L. Pang, H. Han, M. Liu, M. Lei, S. Fang, H. Teng, and Z. Wei, “Tungsten disulfide saturable absorbers for 67 fs mode-locked erbium-doped fiber lasers,” Opt. Express 25(3), 2950–2959 (2017).
[Crossref] [PubMed]

W. Liu, L. Pang, H. Han, W. Tian, H. Chen, M. Lei, P. Yan, and Z. Wei, “70-fs mode-locked erbium-doped fiber laser with topological insulator,” Sci. Rep. 6(1), 19997 (2016).
[Crossref] [PubMed]

L. Xiao-Hui, W. Yong-Gang, W. Yi-Shan, H. Xiao-Hong, Z. Wei, L. Xiang-Lian, Y. Jia, G. Cun-Xiao, Z. Wei, Y. Zhi, L. Cheng, and S. De-Yuan, “Wavelength-Switchable and Wavelength-Tunable All-Normal-Dispersion Mode-Locked Yb-Doped Fiber Laser Based on Single-Walled Carbon Nanotube Wall Paper Absorber,” IEEE Photonics J. 4(1), 234–241 (2012).
[Crossref]

L. Xiao-Hui, W. Yong-Gang, W. Yi-Shan, H. Xiao-Hong, Z. Wei, L. Xiang-Lian, Y. Jia, G. Cun-Xiao, Z. Wei, Y. Zhi, L. Cheng, and S. De-Yuan, “Wavelength-Switchable and Wavelength-Tunable All-Normal-Dispersion Mode-Locked Yb-Doped Fiber Laser Based on Single-Walled Carbon Nanotube Wall Paper Absorber,” IEEE Photonics J. 4(1), 234–241 (2012).
[Crossref]

Wen, S.

J. Du, Q. Wang, G. Jiang, C. Xu, C. Zhao, Y. Xiang, Y. Chen, S. Wen, and H. Zhang, “Ytterbium-doped fiber laser passively mode locked by few-layer Molybdenum Disulfide (MoS2) saturable absorber functioned with evanescent field interaction,” Sci. Rep. 4(1), 6346 (2015).
[Crossref] [PubMed]

Wen, S. C.

Weng, J.

Wu, K.

Wu, S.

Wu, X.

Xiang, Y.

J. Du, Q. Wang, G. Jiang, C. Xu, C. Zhao, Y. Xiang, Y. Chen, S. Wen, and H. Zhang, “Ytterbium-doped fiber laser passively mode locked by few-layer Molybdenum Disulfide (MoS2) saturable absorber functioned with evanescent field interaction,” Sci. Rep. 4(1), 6346 (2015).
[Crossref] [PubMed]

Xiang-Lian, L.

L. Xiao-Hui, W. Yong-Gang, W. Yi-Shan, H. Xiao-Hong, Z. Wei, L. Xiang-Lian, Y. Jia, G. Cun-Xiao, Z. Wei, Y. Zhi, L. Cheng, and S. De-Yuan, “Wavelength-Switchable and Wavelength-Tunable All-Normal-Dispersion Mode-Locked Yb-Doped Fiber Laser Based on Single-Walled Carbon Nanotube Wall Paper Absorber,” IEEE Photonics J. 4(1), 234–241 (2012).
[Crossref]

Xiao-Hong, H.

L. Xiao-Hui, W. Yong-Gang, W. Yi-Shan, H. Xiao-Hong, Z. Wei, L. Xiang-Lian, Y. Jia, G. Cun-Xiao, Z. Wei, Y. Zhi, L. Cheng, and S. De-Yuan, “Wavelength-Switchable and Wavelength-Tunable All-Normal-Dispersion Mode-Locked Yb-Doped Fiber Laser Based on Single-Walled Carbon Nanotube Wall Paper Absorber,” IEEE Photonics J. 4(1), 234–241 (2012).
[Crossref]

Xiao-Hui, L.

L. Xiao-Hui, W. Yong-Gang, W. Yi-Shan, H. Xiao-Hong, Z. Wei, L. Xiang-Lian, Y. Jia, G. Cun-Xiao, Z. Wei, Y. Zhi, L. Cheng, and S. De-Yuan, “Wavelength-Switchable and Wavelength-Tunable All-Normal-Dispersion Mode-Locked Yb-Doped Fiber Laser Based on Single-Walled Carbon Nanotube Wall Paper Absorber,” IEEE Photonics J. 4(1), 234–241 (2012).
[Crossref]

Xiaosheng, X.

F. Bo, H. Yi, X. Xiaosheng, Z. Hongwei, S. Zhipei, and Y. Changxi, “Broadband Graphene Saturable Absorber for Pulsed Fiber Lasers at 1, 1.5, and 2 μm,” IEEE J. Sel. Top. Quantum Electron. 20(5), 411–415 (2014).
[Crossref]

Xie, G. Q.

Xu, C.

J. Du, Q. Wang, G. Jiang, C. Xu, C. Zhao, Y. Xiang, Y. Chen, S. Wen, and H. Zhang, “Ytterbium-doped fiber laser passively mode locked by few-layer Molybdenum Disulfide (MoS2) saturable absorber functioned with evanescent field interaction,” Sci. Rep. 4(1), 6346 (2015).
[Crossref] [PubMed]

Xu, J.

Xu, P.

Xu, W. C.

Xu, Z.

J. Wang, W. Lu, J. Li, H. Chen, Z. Jiang, J. Wang, W. Zhang, M. Zhang, I. Ling Li, Z. Xu, W. Liu, and P. Yan, “Ultrafast Thulium-Doped Fiber Laser Mode Locked by Monolayer WSe2,” IEEE J. Sel. Top. Quantum Electron. 24(3), 1–6 (2018).

Yan, P.

J. Wang, W. Lu, J. Li, H. Chen, Z. Jiang, J. Wang, W. Zhang, M. Zhang, I. Ling Li, Z. Xu, W. Liu, and P. Yan, “Ultrafast Thulium-Doped Fiber Laser Mode Locked by Monolayer WSe2,” IEEE J. Sel. Top. Quantum Electron. 24(3), 1–6 (2018).

J. Wang, Z. Jiang, H. Chen, J. Li, J. Yin, J. Wang, T. He, P. Yan, and S. Ruan, “Magnetron-sputtering deposited WTe2 for an ultrafast thulium-doped fiber laser,” Opt. Lett. 42(23), 5010–5013 (2017).
[Crossref] [PubMed]

W. Liu, L. Pang, H. Han, W. Tian, H. Chen, M. Lei, P. Yan, and Z. Wei, “70-fs mode-locked erbium-doped fiber laser with topological insulator,” Sci. Rep. 6(1), 19997 (2016).
[Crossref] [PubMed]

P. Yan, A. Liu, Y. Chen, J. Wang, S. Ruan, H. Chen, and J. Ding, “Passively mode-locked fiber laser by a cell-type WS2 nanosheets saturable absorber,” Sci. Rep. 5(1), 12587 (2015).
[Crossref] [PubMed]

Yang, D.

D. Mao, X. She, B. Du, D. Yang, W. Zhang, K. Song, X. Cui, B. Jiang, T. Peng, and J. Zhao, “Erbium-doped fiber laser passively mode locked with few-layer WSe2/MoSe2 nanosheets,” Sci. Rep. 6(1), 23583 (2016).
[Crossref] [PubMed]

Yang, Q. H.

Yang, Q.-H.

Yeom, D. I.

Yeom, D.-I.

Yi, H.

F. Bo, H. Yi, X. Xiaosheng, Z. Hongwei, S. Zhipei, and Y. Changxi, “Broadband Graphene Saturable Absorber for Pulsed Fiber Lasers at 1, 1.5, and 2 μm,” IEEE J. Sel. Top. Quantum Electron. 20(5), 411–415 (2014).
[Crossref]

Yin, J.

Yin, K.

Yi-Shan, W.

L. Xiao-Hui, W. Yong-Gang, W. Yi-Shan, H. Xiao-Hong, Z. Wei, L. Xiang-Lian, Y. Jia, G. Cun-Xiao, Z. Wei, Y. Zhi, L. Cheng, and S. De-Yuan, “Wavelength-Switchable and Wavelength-Tunable All-Normal-Dispersion Mode-Locked Yb-Doped Fiber Laser Based on Single-Walled Carbon Nanotube Wall Paper Absorber,” IEEE Photonics J. 4(1), 234–241 (2012).
[Crossref]

Yong-Gang, W.

L. Xiao-Hui, W. Yong-Gang, W. Yi-Shan, H. Xiao-Hong, Z. Wei, L. Xiang-Lian, Y. Jia, G. Cun-Xiao, Z. Wei, Y. Zhi, L. Cheng, and S. De-Yuan, “Wavelength-Switchable and Wavelength-Tunable All-Normal-Dispersion Mode-Locked Yb-Doped Fiber Laser Based on Single-Walled Carbon Nanotube Wall Paper Absorber,” IEEE Photonics J. 4(1), 234–241 (2012).
[Crossref]

Yu, H. H.

Yu, X.

X. Li, K. Wu, Z. Sun, B. Meng, Y. Wang, Y. Wang, X. Yu, X. Yu, Y. Zhang, P. P. Shum, and Q. J. Wang, “Single-wall carbon nanotubes and graphene oxide-based saturable absorbers for low phase noise mode-locked fiber lasers,” Sci. Rep. 6(1), 25266 (2016).
[Crossref] [PubMed]

X. Li, K. Wu, Z. Sun, B. Meng, Y. Wang, Y. Wang, X. Yu, X. Yu, Y. Zhang, P. P. Shum, and Q. J. Wang, “Single-wall carbon nanotubes and graphene oxide-based saturable absorbers for low phase noise mode-locked fiber lasers,” Sci. Rep. 6(1), 25266 (2016).
[Crossref] [PubMed]

X. Li, Y. Wang, Y. Wang, W. Zhao, X. Yu, Z. Sun, X. Cheng, X. Yu, Y. Zhang, and Q. J. Wang, “Nonlinear absorption of SWNT film and its effects to the operation state of pulsed fiber laser,” Opt. Express 22(14), 17227–17235 (2014).
[Crossref] [PubMed]

X. Li, Y. Wang, Y. Wang, W. Zhao, X. Yu, Z. Sun, X. Cheng, X. Yu, Y. Zhang, and Q. J. Wang, “Nonlinear absorption of SWNT film and its effects to the operation state of pulsed fiber laser,” Opt. Express 22(14), 17227–17235 (2014).
[Crossref] [PubMed]

Yu, Z.

Yuan, P.

Zeng, H.

Zhang, B.

K. Yin, B. Zhang, L. Li, T. Jiang, X. Zhou, and J. Hou, “Soliton mode-locked fiber laser based on topological insulator Bi2Te3 nanosheets at 2 μm,” Photon. Res. 3(3), 72 (2015).
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Y. Song, S. Chen, Q. Zhang, L. Li, L. Zhao, H. Zhang, and D. Tang, “Vector soliton fiber laser passively mode locked by few layer black phosphorus-based optical saturable absorber,” Opt. Express 24(23), 25933–25942 (2016).
[Crossref] [PubMed]

J. Du, Q. Wang, G. Jiang, C. Xu, C. Zhao, Y. Xiang, Y. Chen, S. Wen, and H. Zhang, “Ytterbium-doped fiber laser passively mode locked by few-layer Molybdenum Disulfide (MoS2) saturable absorber functioned with evanescent field interaction,” Sci. Rep. 4(1), 6346 (2015).
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H. Liu, X. W. Zheng, M. Liu, N. Zhao, A. P. Luo, Z. C. Luo, W. C. Xu, H. Zhang, C. J. Zhao, and S. C. Wen, “Femtosecond pulse generation from a topological insulator mode-locked fiber laser,” Opt. Express 22(6), 6868–6873 (2014).
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H. Zhang, S. B. Lu, J. Zheng, J. Du, S. C. Wen, D. Y. Tang, and K. P. Loh, “Molybdenum disulfide (MoS2) as a broadband saturable absorber for ultra-fast photonics,” Opt. Express 22(6), 7249–7260 (2014).
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L. M. Zhao, D. Y. Tang, H. Zhang, X. Wu, Q. Bao, and K. P. Loh, “Dissipative soliton operation of an ytterbium-doped fiber laser mode locked with atomic multilayer graphene,” Opt. Lett. 35(21), 3622–3624 (2010).
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J. Wang, W. Lu, J. Li, H. Chen, Z. Jiang, J. Wang, W. Zhang, M. Zhang, I. Ling Li, Z. Xu, W. Liu, and P. Yan, “Ultrafast Thulium-Doped Fiber Laser Mode Locked by Monolayer WSe2,” IEEE J. Sel. Top. Quantum Electron. 24(3), 1–6 (2018).

D. Mao, X. She, B. Du, D. Yang, W. Zhang, K. Song, X. Cui, B. Jiang, T. Peng, and J. Zhao, “Erbium-doped fiber laser passively mode locked with few-layer WSe2/MoSe2 nanosheets,” Sci. Rep. 6(1), 23583 (2016).
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D. Mao, Y. Wang, C. Ma, L. Han, B. Jiang, X. Gan, S. Hua, W. Zhang, T. Mei, and J. Zhao, “WS2 mode-locked ultrafast fiber laser,” Sci. Rep. 5(1), 7965 (2015).
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D. Mao, S. Zhang, Y. Wang, X. Gan, W. Zhang, T. Mei, Y. Wang, Y. Wang, H. Zeng, and J. Zhao, “WS2 saturable absorber for dissipative soliton mode locking at 1.06 and 1.55 microm,” Opt. Express 23(21), 27509–27519 (2015).
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D. Mao, Y. Wang, C. Ma, L. Han, B. Jiang, X. Gan, S. Hua, W. Zhang, T. Mei, and J. Zhao, “WS2 mode-locked ultrafast fiber laser,” Sci. Rep. 5(1), 7965 (2015).
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D. Mao, S. Zhang, Y. Wang, X. Gan, W. Zhang, T. Mei, Y. Wang, Y. Wang, H. Zeng, and J. Zhao, “WS2 saturable absorber for dissipative soliton mode locking at 1.06 and 1.55 microm,” Opt. Express 23(21), 27509–27519 (2015).
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Q. Wang, T. Chen, B. Zhang, M. Li, Y. Lu, and K. P. Chen, “All-fiber passively mode-locked thulium-doped fiber ring laser using optically deposited graphene saturable absorbers,” Appl. Phys. Lett. 102(13), 131117 (2013).
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J. Wang, W. Lu, J. Li, H. Chen, Z. Jiang, J. Wang, W. Zhang, M. Zhang, I. Ling Li, Z. Xu, W. Liu, and P. Yan, “Ultrafast Thulium-Doped Fiber Laser Mode Locked by Monolayer WSe2,” IEEE J. Sel. Top. Quantum Electron. 24(3), 1–6 (2018).

IEEE Photonics J. (1)

L. Xiao-Hui, W. Yong-Gang, W. Yi-Shan, H. Xiao-Hong, Z. Wei, L. Xiang-Lian, Y. Jia, G. Cun-Xiao, Z. Wei, Y. Zhi, L. Cheng, and S. De-Yuan, “Wavelength-Switchable and Wavelength-Tunable All-Normal-Dispersion Mode-Locked Yb-Doped Fiber Laser Based on Single-Walled Carbon Nanotube Wall Paper Absorber,” IEEE Photonics J. 4(1), 234–241 (2012).
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Nat. Chem. (1)

M. Chhowalla, H. S. Shin, G. Eda, L. J. Li, K. P. Loh, and H. Zhang, “The chemistry of two-dimensional layered transition metal dichalcogenide nanosheets,” Nat. Chem. 5(4), 263–275 (2013).
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Opt. Express (20)

Y. Song, S. Chen, Q. Zhang, L. Li, L. Zhao, H. Zhang, and D. Tang, “Vector soliton fiber laser passively mode locked by few layer black phosphorus-based optical saturable absorber,” Opt. Express 24(23), 25933–25942 (2016).
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L. Li, S. Jiang, Y. Wang, X. Wang, L. Duan, D. Mao, Z. Li, B. Man, and J. Si, “WS2/fluorine mica (FM) saturable absorbers for all-normal-dispersion mode-locked fiber laser,” Opt. Express 23(22), 28698–28706 (2015).
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Z. Dou, Y. Song, J. Tian, J. Liu, Z. Yu, and X. Fang, “Mode-locked ytterbium-doped fiber laser based on topological insulator: Bi2Se3,” Opt. Express 22(20), 24055–24061 (2014).
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M. Jung, J. Lee, J. Koo, J. Park, Y. W. Song, K. Lee, S. Lee, and J. H. Lee, “A femtosecond pulse fiber laser at 1935 nm using a bulk-structured Bi2Te3 topological insulator,” Opt. Express 22(7), 7865–7874 (2014).
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H. Liu, X. W. Zheng, M. Liu, N. Zhao, A. P. Luo, Z. C. Luo, W. C. Xu, H. Zhang, C. J. Zhao, and S. C. Wen, “Femtosecond pulse generation from a topological insulator mode-locked fiber laser,” Opt. Express 22(6), 6868–6873 (2014).
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Z. Cheng, H. Li, H. Shi, J. Ren, Q. H. Yang, and P. Wang, “Dissipative soliton resonance and reverse saturable absorption in graphene oxide mode-locked all-normal-dispersion Yb-doped fiber laser,” Opt. Express 23(6), 7000–7006 (2015).
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J. Sotor, I. Pasternak, A. Krajewska, W. Strupinski, and G. Sobon, “Sub-90 fs a stretched-pulse mode-locked fiber laser based on a graphene saturable absorber,” Opt. Express 23(21), 27503–27508 (2015).
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H. Jeong, S. Y. Choi, F. Rotermund, Y. H. Cha, D. Y. Jeong, and D. I. Yeom, “All-fiber mode-locked laser oscillator with pulse energy of 34 nJ using a single-walled carbon nanotube saturable absorber,” Opt. Express 22(19), 22667–22672 (2014).
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X. Li, Y. Wang, Y. Wang, W. Zhao, X. Yu, Z. Sun, X. Cheng, X. Yu, Y. Zhang, and Q. J. Wang, “Nonlinear absorption of SWNT film and its effects to the operation state of pulsed fiber laser,” Opt. Express 22(14), 17227–17235 (2014).
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W. S. Kwon, H. Lee, J. H. Kim, J. Choi, K. S. Kim, and S. Kim, “Ultrashort stretched-pulse L-band laser using carbon-nanotube saturable absorber,” Opt. Express 23(6), 7779–7785 (2015).
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J. Wang, Z. Cai, P. Xu, G. Du, F. Wang, S. Ruan, Z. Sun, and T. Hasan, “Pulse dynamics in carbon nanotube mode-locked fiber lasers near zero cavity dispersion,” Opt. Express 23(8), 9947–9958 (2015).
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H. R. Chen, C. Y. Tsai, H. M. Cheng, K. H. Lin, and W. F. Hsieh, “Passive mode locking of ytterbium- and erbium-doped all-fiber lasers using graphene oxide saturable absorbers,” Opt. Express 22(11), 12880–12889 (2014).
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M. A. Chernysheva, A. A. Krylov, P. G. Kryukov, N. R. Arutyunyan, A. S. Pozharov, E. D. Obraztsova, and E. M. Dianov, “Thulium-doped mode-locked all-fiber laser based on NALM and carbon nanotube saturable absorber,” Opt. Express 20(26), B124–B130 (2012).
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J. Xu, J. Liu, S. Wu, Q.-H. Yang, and P. Wang, “Graphene oxide mode-locked femtosecond erbium-doped fiber lasers,” Opt. Express 20(14), 15474–15480 (2012).
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W. Liu, L. Pang, H. Han, M. Liu, M. Lei, S. Fang, H. Teng, and Z. Wei, “Tungsten disulfide saturable absorbers for 67 fs mode-locked erbium-doped fiber lasers,” Opt. Express 25(3), 2950–2959 (2017).
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E. J. Aiub, D. Steinberg, E. A. Thoroh de Souza, and L. A. M. Saito, “200-fs mode-locked Erbium-doped fiber laser by using mechanically exfoliated MoS2 saturable absorber onto D-shaped optical fiber,” Opt. Express 25(9), 10546–10552 (2017).
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H. Zhang, S. B. Lu, J. Zheng, J. Du, S. C. Wen, D. Y. Tang, and K. P. Loh, “Molybdenum disulfide (MoS2) as a broadband saturable absorber for ultra-fast photonics,” Opt. Express 22(6), 7249–7260 (2014).
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D. Mao, S. Zhang, Y. Wang, X. Gan, W. Zhang, T. Mei, Y. Wang, Y. Wang, H. Zeng, and J. Zhao, “WS2 saturable absorber for dissipative soliton mode locking at 1.06 and 1.55 microm,” Opt. Express 23(21), 27509–27519 (2015).
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K. Wu, X. Zhang, J. Wang, X. Li, and J. Chen, “WS2 as a saturable absorber for ultrafast photonic applications of mode-locked and Q-switched lasers,” Opt. Express 23(9), 11453–11461 (2015).
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J. Koo, J. Park, J. Lee, Y. M. Jhon, and J. H. Lee, “Femtosecond harmonic mode-locking of a fiber laser at 3.27 GHz using a bulk-like, MoSe2-based saturable absorber,” Opt. Express 24(10), 10575–10589 (2016).
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Opt. Mater. Express (2)

Photon. Res. (3)

Sci. Rep. (7)

X. Li, K. Wu, Z. Sun, B. Meng, Y. Wang, Y. Wang, X. Yu, X. Yu, Y. Zhang, P. P. Shum, and Q. J. Wang, “Single-wall carbon nanotubes and graphene oxide-based saturable absorbers for low phase noise mode-locked fiber lasers,” Sci. Rep. 6(1), 25266 (2016).
[Crossref] [PubMed]

D. Mao, Y. Wang, C. Ma, L. Han, B. Jiang, X. Gan, S. Hua, W. Zhang, T. Mei, and J. Zhao, “WS2 mode-locked ultrafast fiber laser,” Sci. Rep. 5(1), 7965 (2015).
[Crossref] [PubMed]

J. Du, Q. Wang, G. Jiang, C. Xu, C. Zhao, Y. Xiang, Y. Chen, S. Wen, and H. Zhang, “Ytterbium-doped fiber laser passively mode locked by few-layer Molybdenum Disulfide (MoS2) saturable absorber functioned with evanescent field interaction,” Sci. Rep. 4(1), 6346 (2015).
[Crossref] [PubMed]

W. Liu, L. Pang, H. Han, W. Tian, H. Chen, M. Lei, P. Yan, and Z. Wei, “70-fs mode-locked erbium-doped fiber laser with topological insulator,” Sci. Rep. 6(1), 19997 (2016).
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D. Mao, X. She, B. Du, D. Yang, W. Zhang, K. Song, X. Cui, B. Jiang, T. Peng, and J. Zhao, “Erbium-doped fiber laser passively mode locked with few-layer WSe2/MoSe2 nanosheets,” Sci. Rep. 6(1), 23583 (2016).
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P. Yan, A. Liu, Y. Chen, J. Wang, S. Ruan, H. Chen, and J. Ding, “Passively mode-locked fiber laser by a cell-type WS2 nanosheets saturable absorber,” Sci. Rep. 5(1), 12587 (2015).
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Y. Cui, F. Lu, and X. Liu, “MoS2-clad microfibre laser delivering conventional, dispersion-managed and dissipative solitons,” Sci. Rep. 6(1), 30524 (2016).
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Figures (5)

Fig. 1
Fig. 1 Fiber lasers based on different low-dimensional materials SAs classified in terms of emission wavelength and pulse duration [1–52].
Fig. 2
Fig. 2 (a) Schematic diagram of the dispersion-managed YDF laser by the SWCNT-based SA. WDM: wavelength division multiplexer; OC1, OC2: output couplers; Col1-Col3: collimators; GP1, GP2: grating pairs; HR1-HR4: high reflective mirrors; PI-ISO: polarization independent isolator; PC: polarization controller; SA: SWCNT-based SA. (b) Nonlinear transmission curve of the SWCNT-based SA.
Fig. 3
Fig. 3 Mode-locked pulse emission from the OC1 with a pump power of 70 mW. (a) The optical spectrum; (b) the typical pulse trains; (c) the corresponding RF spectrum at 21.16 MHz with a resolution bandwidth (RBW) of 1 Hz. Inset: RF spectrum at 21.16 MHz with RBW of 100 Hz; (d) the corresponding autocorrelation trace.
Fig. 4
Fig. 4 Mode-locked pulse emission from the OC2 with a pump power of 70 mW. (a) The spectrum; (b) the typical pulse trains; (c) the corresponding RF spectrum at 21.16 MHz with an RBW of 1 Hz. Inset: RF spectrum at 21.16 MHz with RBW of 100 Hz; (d) the corresponding AC trace.
Fig. 5
Fig. 5 The corresponding autocorrelation trace of the pulse after outside cavity compressing.

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