Abstract

In 2003, carbon nanotubes opened a new field of research on nanomaterial-based mode-locked fiber lasers. They maintain popularity in the ultrafast laser community due to their broadband operation, relatively high damage threshold, and tunable optical properties. Here we show that metallic carbon nanotube-based thin film fabricated by vacuum filtration technique can be used as a saturable absorber in holmium-doped fiber laser operating in anomalous and normal dispersion regimes. Scaling the absorbers modulation depth by adjusting the film thickness was observed. The Fourier transform limited 6.65 nm wide optical solitons in anomalous dispersion regime were generated. Utilizing stretched-pulse regime greatly improves the laser performance - 212 fs pulses reach the energy of 3.79 nJ.

© 2019 Optical Society of America under the terms of the OSA Open Access Publishing Agreement

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    [Crossref]

2018 (5)

D. Li, H. Jussila, Y. Wang, G. Hu, T. Albrow-Owen, R. Howe, Z. Ren, J. Bai, T. Hasan, and Z. Sun, “Wavelength and pulse duration tunable ultrafast fiber laser mode-locked with carbon nanotubes,” Sci. Reports 8, 2738 (2018).
[Crossref]

L. Hou, H. Guo, Y. Wang, J. Sun, Q. Lin, Y. Bai, and J. Bai, “Sub-200 femtosecond dispersion-managed soliton ytterbium-doped fiber laser based on carbon nanotubes saturable absorber,” Opt. Express 26, 9063–9070 (2018).
[Crossref] [PubMed]

X. Xu, S. Ruan, J. Zhai, L. Li, J. Pei, and Z. Tang, “Facile active control of a pulsed erbium-doped fiber laser using modulation depth tunable carbon nanotubes,” Photon. Res. 6, 996–1002 (2018).
[Crossref]

S. A. Filatova, V. A. Kamynin, N. R. Arutyunyan, A. S. Pozharov, A. I. Trikshev, I. V. Zhluktova, I. O. Zolotovskii, E. D. Obraztsova, and V. B. Tsvetkov, “Hybrid mode locking of an all-fiber holmium laser,” JOSA B 35, 3122–3125 (2018).
[Crossref]

M. Pawliszewska, T. Martynkien, A. Przewłoka, and J. Sotor, “Dispersion-managed Ho-doped fiber laser mode-locked with graphene saturable absorber,” Opt. Lett. 43, 38–41 (2018).
[Crossref] [PubMed]

2017 (5)

M. Pawliszewska, Y. Ge, Z. Li, H. Zhang, and J. Sotor, “Fundamental and harmonic mode-locking at 2.1 μm with black phosphorus saturable absorber,” Opt. Express 25, 16916–16921 (2017).
[Crossref] [PubMed]

M. Hinkelmann, D. Wandt, U. Morgner, J. Neumann, and D. Kracht, “Mode-locked Ho-doped laser with subsequent diode-pumped amplifier in an all-fiber design operating at 2052 nm,” Opt. Express 25, 20522–20529 (2017).
[Crossref] [PubMed]

L. N. Duan, L. Li, Y. G. Wang, and X. Wang, “All-fiber dissipative soliton laser based on single-walled carbon nanotube absorber in normal dispersion regime,” Optik 137, 308–312 (2017).
[Crossref]

G. Sobon, A. Duzynska, M. Świniarski, J. Judek, J. Sotor, and M. Zdrojek, “CNT-based saturable absorbers with scalable modulation depth for Thulium-doped fiber lasers operating at 1.9 μm,” Sci. Reports 7, 45491 (2017).
[Crossref]

Y. Meng, Y. Li, Y. Xu, and F. Wang, “Carbon nanotube mode-locked thulium fiber laser with 200 nm tuning range,” Sci. Reports 7, 45109 (2017).
[Crossref]

2016 (5)

P. Li, A. Ruehl, C. Bransley, and I. Hartl, “Low noise, tunable Ho:fiber soliton oscillator for Ho:YLF amplifier seeding,” Laser Phys. Lett. 13, 065104 (2016).
[Crossref]

J. Sotor, M. Pawliszewska, G. Soboń, P. Kaczmarek, A. Przewłoka, I. Pasternak, J. Cajzl, P. Peterka, P. Honzatko, I. Kasik, W. Strupinski, and K. Abramski, “All-fiber Ho-doped mode-locked oscillator based on a graphene saturable absorber,” Opt. Lett. 41, 2592–2595 (2016).
[Crossref] [PubMed]

S. Kobtsev, A. Ivanenko, Y. G. Gladush, B. Nyushkov, A. Kokhanovskiy, A. S. Anisimov, and A. G. Nasibulin, “Ultrafast all-fibre laser mode-locked by polymer-free carbon nanotube film,” Opt. Express 24, 28768–28773 (2016).
[Crossref] [PubMed]

S. Xu, F. Wang, C. Zhu, Y. Meng, Y. Liu, W. Liu, J. Tang, K. Liu, G. Hu, R. C. Howe, T. Hasan, R. Zhang, Y. Shi, and Y. Xu, “Ultrafast nonlinear photoresponse of single-wall carbon nanotubes: a broadband degenerate investigation,” Nanoscale 8, 9304–9309 (2016).
[Crossref] [PubMed]

A. Duzynska, M. Swiniarski, A. Wroblewska, A. Lapinska, K. Zeranska, J. Judek, and M. Zdrojek, “Phonon properties in different types of single-walled carbon nanotube thin films probed by Raman spectroscopy,” Carbon 105, 377–386 (2016).
[Crossref]

2015 (1)

G. Soboń, “Mode-locking of fiber lasers using novel two-dimensional nanomaterials: graphene and topological insulators [Invited],” Photonics Res. 3, A56–A63 (2015).
[Crossref]

2013 (1)

X. Liu, D. Han, Z. Sun, C. Zeng, H. Lu, D. Mao, Y. Cui, and F. Wang, “Versatile multi-wavelength ultrafast fiber laser mode-locked by carbon nanotubes,” Sci. Reports 3, 2718 (2013).
[Crossref]

2012 (2)

A. Y. Chamorovskiy, A. V. Marakulin, A. S. Kurkov, and O. G. Okhotnikov, “Tunable Ho-doped soliton fiber laser mode-locked by carbon nanotube saturable absorber,” Laser Phys. Lett. 9, 602–606 (2012).
[Crossref]

A. Chamorovskiy, A. Marakulin, S. Ranta, M. Tavast, J. Rautiainen, T. Leinonen, A. Kurkov, and O. Okhotnikov, “Femtosecond mode-locked holmium fiber laser pumped by semiconductor disk laser,” Opt. Lett. 37, 1448–1450 (2012).
[Crossref] [PubMed]

2010 (5)

Y. Matsuda, J. Tahir-Kheli, and W. A. Goddard, “Definitive band gaps for single-wall carbon nanotubes,” The J. Phys. Chem. Lett. 1, 2946–2950 (2010).
[Crossref]

Z. Sun, T. Hasan, F. Wang, A. G. Rozhin, I. H. White, and A. C. Ferrari, “Ultrafast stretched-pulse fiber laser mode-locked by carbon nanotubes,” Nano Res. 3, 404–411 (2010).
[Crossref]

W. B. Cho, J. H. Yim, S. Y. Choi, S. Lee, A. Schmidt, G. Steinmeyer, U. Griebner, V. Petrov, D.-I. Yeom, K. Kim, and F. Rotermund, “Boosting the non linear optical response of carbon nanotube saturable absorbers for broadband mode-locking of bulk lasers,” Adv. Funct. Mater. 20, 1937–1943 (2010).
[Crossref]

J. H. Im, S. Y. Choi, F. Rotermund, and D.-I. Yeom, “All-fiber Er-doped dissipative soliton laser based on evanescent field interaction with carbon nanotube saturable absorber,” Opt. Express 18, 22141–22146 (2010).
[Crossref] [PubMed]

E. J. 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, 790–794 (2010).
[Crossref]

2009 (2)

K. Kieu and F. W. Wise, “Soliton thulium-doped fiber laser with carbon nanotube saturable absorber,” IEEE Photonics Technol. Lett. 21, 128–130 (2009).
[Crossref] [PubMed]

L. Lüer, G. Lanzani, J. Crochet, T. Hertel, J. Holt, and Z. V. Vardeny, “Ultrafast dynamics in metallic and semiconducting carbon nanotubes,” Phys. Rev. B 80, 205411 (2009).
[Crossref]

2008 (4)

N. Nishizawa, Y. Seno, K. Sumimura, Y. Sakakibara, E. Itoga, H. Kataura, and K. Itoh, “All-polarization-maintaining Er-doped ultrashort-pulse fiber laser using carbon nanotube saturable absorber,” Opt. Express 16, 9429–9435 (2008).
[Crossref] [PubMed]

A. Schmidt, S. Rivier, G. Steinmeyer, J. H. Yim, W. B. Cho, S. Lee, F. Rotermund, M. C. Pujol, X. Mateos, M. Aguiló, F. Díaz, V. Petrov, and U. Griebner, “Passive mode locking of Yb:KLuW using a single-walled carbon nanotube saturable absorber,” Opt. Lett. 33, 729–731 (2008).
[Crossref] [PubMed]

Y.-W. Song, S. Yamashita, and S. Maruyama, “Single-walled carbon nanotubes for high-energy optical pulse formation,” Appl. Phys. Lett. 92, 021115 (2008).
[Crossref]

J. H. Yim, W. B. Cho, S. Lee, Y. H. Ahn, K. Kim, H. Lim, G. Steinmeyer, V. Petrov, U. Griebner, and F. Rotermund, “Fabrication and characterization of ultrafast carbon nanotube saturable absorbers for solid-state laser mode locking near 1 μm,” Appl. Phys. Lett. 93, 161106 (2008).
[Crossref]

2005 (2)

2004 (4)

S. Y. Set, H. Yaguchi, Y. Tanaka, and M. Jablonski, “Laser mode locking using a saturable absorber incorporating carbon nanotubes,” J. Light. Technol. 22, 51–56 (2004).
[Crossref]

Z. Wu, Z. Chen, X. Du, J. M. Logan, J. Sippel, M. Nikolou, K. Kamaras, J. R. Reynolds, D. B. Tanner, A. F. Hebard, and A. G. Rinzler, “Transparent, conductive carbon nanotube films,” Science 305, 1273–1276 (2004).
[Crossref] [PubMed]

C. D. Spataru, S. Ismail-Beigi, L. X. Benedict, and S. G. Louie, “Excitonic effects and optical spectra of single-walled carbon nanotubes,” Phys. Rev. Lett. 92, 077402 (2004).
[Crossref] [PubMed]

S. Y. Set, H. Yaguchi, Y. Tanaka, and M. Jablonski, “Ultrafast fiber pulsed lasers incorporating carbon nanotubes,” IEEE J. Sel. Top. Quantum Electron. 10, 137–146 (2004).
[Crossref]

2001 (1)

M. Ouyang, J.-L. Huang, C. L. Cheung, and C. M. Lieber, “Energy gaps in “metallic” single-walled carbon nanotubes,” Science 292, 702–705 (2001).
[Crossref] [PubMed]

2000 (1)

T. Schibli, E. Thoen, F. Kärtner, and E. Ippen, “Suppression of Q-switched mode locking and break-up into multiple pulses by inverse saturable absorption,” Appl. Phys. B 70, S41–S49 (2000).
[Crossref]

1999 (1)

H. Kataura, Y. Kumazawa, Y. Maniwa, I. Umezu, S. Suzuki, Y. Ohtsuka, and Y. Achiba, “Optical properties of single-wall carbon nanotubes,” Synth. Met. 103, 2555–2558 (1999).
[Crossref]

Abramski, K.

Achiba, Y.

H. Kataura, Y. Kumazawa, Y. Maniwa, I. Umezu, S. Suzuki, Y. Ohtsuka, and Y. Achiba, “Optical properties of single-wall carbon nanotubes,” Synth. Met. 103, 2555–2558 (1999).
[Crossref]

S. Y. Set, H. Yaguchi, Y. Tanaka, M. Jablonski, Y. Sakakibara, A. Rozhin, M. Tokumoto, H. Kataura, Y. Achiba, and K. Kikuchi, “Mode-locked fiber lasers based on a saturable absorber incorporating carbon nanotubes,” in OFC 2003 Optical Fiber Communications Conference, (2003), p. PD44.
[Crossref]

Aguiló, M.

Ahn, Y. H.

J. H. Yim, W. B. Cho, S. Lee, Y. H. Ahn, K. Kim, H. Lim, G. Steinmeyer, V. Petrov, U. Griebner, and F. Rotermund, “Fabrication and characterization of ultrafast carbon nanotube saturable absorbers for solid-state laser mode locking near 1 μm,” Appl. Phys. Lett. 93, 161106 (2008).
[Crossref]

Albrow-Owen, T.

D. Li, H. Jussila, Y. Wang, G. Hu, T. Albrow-Owen, R. Howe, Z. Ren, J. Bai, T. Hasan, and Z. Sun, “Wavelength and pulse duration tunable ultrafast fiber laser mode-locked with carbon nanotubes,” Sci. Reports 8, 2738 (2018).
[Crossref]

Anisimov, A. S.

Arutyunyan, N. R.

S. A. Filatova, V. A. Kamynin, N. R. Arutyunyan, A. S. Pozharov, A. I. Trikshev, I. V. Zhluktova, I. O. Zolotovskii, E. D. Obraztsova, and V. B. Tsvetkov, “Hybrid mode locking of an all-fiber holmium laser,” JOSA B 35, 3122–3125 (2018).
[Crossref]

Bai, J.

D. Li, H. Jussila, Y. Wang, G. Hu, T. Albrow-Owen, R. Howe, Z. Ren, J. Bai, T. Hasan, and Z. Sun, “Wavelength and pulse duration tunable ultrafast fiber laser mode-locked with carbon nanotubes,” Sci. Reports 8, 2738 (2018).
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L. Hou, H. Guo, Y. Wang, J. Sun, Q. Lin, Y. Bai, and J. Bai, “Sub-200 femtosecond dispersion-managed soliton ytterbium-doped fiber laser based on carbon nanotubes saturable absorber,” Opt. Express 26, 9063–9070 (2018).
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Bai, Y.

Benedict, L. X.

C. D. Spataru, S. Ismail-Beigi, L. X. Benedict, and S. G. Louie, “Excitonic effects and optical spectra of single-walled carbon nanotubes,” Phys. Rev. Lett. 92, 077402 (2004).
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P. Li, A. Ruehl, C. Bransley, and I. Hartl, “Low noise, tunable Ho:fiber soliton oscillator for Ho:YLF amplifier seeding,” Laser Phys. Lett. 13, 065104 (2016).
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Cai, Z.

G. Liu, K. Yin, L. Yang, Z. Cai, B. Zhang, and J. Hou, “Noise-like pulse generation from a Ho-doped fiber laser based on nonlinear polarization rotation,” in 2017 International Conference on Optical Instruments and Technology: Advanced Laser Technology and Applications, vol. 10619 (International Society for Optics and Photonics, 2018), p. 1061908.

Cajzl, J.

Chamorovskiy, A.

Chamorovskiy, A. Y.

A. Y. Chamorovskiy, A. V. Marakulin, A. S. Kurkov, and O. G. Okhotnikov, “Tunable Ho-doped soliton fiber laser mode-locked by carbon nanotube saturable absorber,” Laser Phys. Lett. 9, 602–606 (2012).
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Z. Wu, Z. Chen, X. Du, J. M. Logan, J. Sippel, M. Nikolou, K. Kamaras, J. R. Reynolds, D. B. Tanner, A. F. Hebard, and A. G. Rinzler, “Transparent, conductive carbon nanotube films,” Science 305, 1273–1276 (2004).
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Cheung, C. L.

M. Ouyang, J.-L. Huang, C. L. Cheung, and C. M. Lieber, “Energy gaps in “metallic” single-walled carbon nanotubes,” Science 292, 702–705 (2001).
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Cho, W. B.

W. B. Cho, J. H. Yim, S. Y. Choi, S. Lee, A. Schmidt, G. Steinmeyer, U. Griebner, V. Petrov, D.-I. Yeom, K. Kim, and F. Rotermund, “Boosting the non linear optical response of carbon nanotube saturable absorbers for broadband mode-locking of bulk lasers,” Adv. Funct. Mater. 20, 1937–1943 (2010).
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A. Schmidt, S. Rivier, G. Steinmeyer, J. H. Yim, W. B. Cho, S. Lee, F. Rotermund, M. C. Pujol, X. Mateos, M. Aguiló, F. Díaz, V. Petrov, and U. Griebner, “Passive mode locking of Yb:KLuW using a single-walled carbon nanotube saturable absorber,” Opt. Lett. 33, 729–731 (2008).
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J. H. Yim, W. B. Cho, S. Lee, Y. H. Ahn, K. Kim, H. Lim, G. Steinmeyer, V. Petrov, U. Griebner, and F. Rotermund, “Fabrication and characterization of ultrafast carbon nanotube saturable absorbers for solid-state laser mode locking near 1 μm,” Appl. Phys. Lett. 93, 161106 (2008).
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Choi, S. Y.

J. H. Im, S. Y. Choi, F. Rotermund, and D.-I. Yeom, “All-fiber Er-doped dissipative soliton laser based on evanescent field interaction with carbon nanotube saturable absorber,” Opt. Express 18, 22141–22146 (2010).
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W. B. Cho, J. H. Yim, S. Y. Choi, S. Lee, A. Schmidt, G. Steinmeyer, U. Griebner, V. Petrov, D.-I. Yeom, K. Kim, and F. Rotermund, “Boosting the non linear optical response of carbon nanotube saturable absorbers for broadband mode-locking of bulk lasers,” Adv. Funct. Mater. 20, 1937–1943 (2010).
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Crochet, J.

L. Lüer, G. Lanzani, J. Crochet, T. Hertel, J. Holt, and Z. V. Vardeny, “Ultrafast dynamics in metallic and semiconducting carbon nanotubes,” Phys. Rev. B 80, 205411 (2009).
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Cui, Y.

X. Liu, D. Han, Z. Sun, C. Zeng, H. Lu, D. Mao, Y. Cui, and F. Wang, “Versatile multi-wavelength ultrafast fiber laser mode-locked by carbon nanotubes,” Sci. Reports 3, 2718 (2013).
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Díaz, F.

Du, X.

Z. Wu, Z. Chen, X. Du, J. M. Logan, J. Sippel, M. Nikolou, K. Kamaras, J. R. Reynolds, D. B. Tanner, A. F. Hebard, and A. G. Rinzler, “Transparent, conductive carbon nanotube films,” Science 305, 1273–1276 (2004).
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Duan, L. N.

L. N. Duan, L. Li, Y. G. Wang, and X. Wang, “All-fiber dissipative soliton laser based on single-walled carbon nanotube absorber in normal dispersion regime,” Optik 137, 308–312 (2017).
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G. Sobon, A. Duzynska, M. Świniarski, J. Judek, J. Sotor, and M. Zdrojek, “CNT-based saturable absorbers with scalable modulation depth for Thulium-doped fiber lasers operating at 1.9 μm,” Sci. Reports 7, 45491 (2017).
[Crossref]

A. Duzynska, M. Swiniarski, A. Wroblewska, A. Lapinska, K. Zeranska, J. Judek, and M. Zdrojek, “Phonon properties in different types of single-walled carbon nanotube thin films probed by Raman spectroscopy,” Carbon 105, 377–386 (2016).
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Eichhorn, M.

C. Kieleck, A. Hildenbrand, M. Eichhorn, D. Faye, E. Lallier, B. Gérard, and S. Jackson, “OP-GaAs OPO pumped by 2 μm Q-switched lasers: Tm; Ho: silica fiber laser and Ho: YAG laser,” in Technologies for Optical Countermeasures VII, vol. 7836 (International Society for Optics and Photonics, 2010), p. 783607.
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Faye, D.

C. Kieleck, A. Hildenbrand, M. Eichhorn, D. Faye, E. Lallier, B. Gérard, and S. Jackson, “OP-GaAs OPO pumped by 2 μm Q-switched lasers: Tm; Ho: silica fiber laser and Ho: YAG laser,” in Technologies for Optical Countermeasures VII, vol. 7836 (International Society for Optics and Photonics, 2010), p. 783607.
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Ferrari, A. C.

Z. Sun, T. Hasan, F. Wang, A. G. Rozhin, I. H. White, and A. C. Ferrari, “Ultrafast stretched-pulse fiber laser mode-locked by carbon nanotubes,” Nano Res. 3, 404–411 (2010).
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E. J. 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, 790–794 (2010).
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S. A. Filatova, V. A. Kamynin, N. R. Arutyunyan, A. S. Pozharov, A. I. Trikshev, I. V. Zhluktova, I. O. Zolotovskii, E. D. Obraztsova, and V. B. Tsvetkov, “Hybrid mode locking of an all-fiber holmium laser,” JOSA B 35, 3122–3125 (2018).
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Fuhrberg, P.

K. Scholle, S. Lamrini, P. Koopmann, and P. Fuhrberg, “2 μm laser sources and their possible applications,” in Frontiers in Guided Wave Optics and Optoelectronics, B. Pal, ed. (InTech, 2010).
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Ge, Y.

Gérard, B.

C. Kieleck, A. Hildenbrand, M. Eichhorn, D. Faye, E. Lallier, B. Gérard, and S. Jackson, “OP-GaAs OPO pumped by 2 μm Q-switched lasers: Tm; Ho: silica fiber laser and Ho: YAG laser,” in Technologies for Optical Countermeasures VII, vol. 7836 (International Society for Optics and Photonics, 2010), p. 783607.
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Gladush, Y. G.

Goddard, W. A.

Y. Matsuda, J. Tahir-Kheli, and W. A. Goddard, “Definitive band gaps for single-wall carbon nanotubes,” The J. Phys. Chem. Lett. 1, 2946–2950 (2010).
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Goh, C. S.

Y.-W. Song, S. Y. Set, S. Yamashita, C. S. Goh, and T. Kotake, “1300-nm pulsed fiber lasers mode-locked by purified carbon nanotubes,” IEEE Photonics Technol. Lett. 17, 1623–1625 (2005).
[Crossref]

C. S. Goh, K. Kikuchi, S. Y. Set, D. Tanaka, T. Kotake, M. Jablonski, S. Yamashita, and T. Kobayashi, “Femtosecond mode-locking of a ytterbium-doped fiber laser using a carbon-nanotube-based mode-locker with ultra-wide absorption band,” in (CLEO). Conference on Lasers and Electro-Optics, vol. 3 (2005), pp. 1644–1646.
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Golant, K. M.

E. J. 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, 790–794 (2010).
[Crossref]

Griebner, U.

W. B. Cho, J. H. Yim, S. Y. Choi, S. Lee, A. Schmidt, G. Steinmeyer, U. Griebner, V. Petrov, D.-I. Yeom, K. Kim, and F. Rotermund, “Boosting the non linear optical response of carbon nanotube saturable absorbers for broadband mode-locking of bulk lasers,” Adv. Funct. Mater. 20, 1937–1943 (2010).
[Crossref]

A. Schmidt, S. Rivier, G. Steinmeyer, J. H. Yim, W. B. Cho, S. Lee, F. Rotermund, M. C. Pujol, X. Mateos, M. Aguiló, F. Díaz, V. Petrov, and U. Griebner, “Passive mode locking of Yb:KLuW using a single-walled carbon nanotube saturable absorber,” Opt. Lett. 33, 729–731 (2008).
[Crossref] [PubMed]

J. H. Yim, W. B. Cho, S. Lee, Y. H. Ahn, K. Kim, H. Lim, G. Steinmeyer, V. Petrov, U. Griebner, and F. Rotermund, “Fabrication and characterization of ultrafast carbon nanotube saturable absorbers for solid-state laser mode locking near 1 μm,” Appl. Phys. Lett. 93, 161106 (2008).
[Crossref]

Guo, H.

Han, D.

X. Liu, D. Han, Z. Sun, C. Zeng, H. Lu, D. Mao, Y. Cui, and F. Wang, “Versatile multi-wavelength ultrafast fiber laser mode-locked by carbon nanotubes,” Sci. Reports 3, 2718 (2013).
[Crossref]

Hartl, I.

P. Li, A. Ruehl, C. Bransley, and I. Hartl, “Low noise, tunable Ho:fiber soliton oscillator for Ho:YLF amplifier seeding,” Laser Phys. Lett. 13, 065104 (2016).
[Crossref]

Hasan, T.

D. Li, H. Jussila, Y. Wang, G. Hu, T. Albrow-Owen, R. Howe, Z. Ren, J. Bai, T. Hasan, and Z. Sun, “Wavelength and pulse duration tunable ultrafast fiber laser mode-locked with carbon nanotubes,” Sci. Reports 8, 2738 (2018).
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S. Xu, F. Wang, C. Zhu, Y. Meng, Y. Liu, W. Liu, J. Tang, K. Liu, G. Hu, R. C. Howe, T. Hasan, R. Zhang, Y. Shi, and Y. Xu, “Ultrafast nonlinear photoresponse of single-wall carbon nanotubes: a broadband degenerate investigation,” Nanoscale 8, 9304–9309 (2016).
[Crossref] [PubMed]

Z. Sun, T. Hasan, F. Wang, A. G. Rozhin, I. H. White, and A. C. Ferrari, “Ultrafast stretched-pulse fiber laser mode-locked by carbon nanotubes,” Nano Res. 3, 404–411 (2010).
[Crossref]

Hebard, A. F.

Z. Wu, Z. Chen, X. Du, J. M. Logan, J. Sippel, M. Nikolou, K. Kamaras, J. R. Reynolds, D. B. Tanner, A. F. Hebard, and A. G. Rinzler, “Transparent, conductive carbon nanotube films,” Science 305, 1273–1276 (2004).
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Hertel, T.

L. Lüer, G. Lanzani, J. Crochet, T. Hertel, J. Holt, and Z. V. Vardeny, “Ultrafast dynamics in metallic and semiconducting carbon nanotubes,” Phys. Rev. B 80, 205411 (2009).
[Crossref]

Hildenbrand, A.

C. Kieleck, A. Hildenbrand, M. Eichhorn, D. Faye, E. Lallier, B. Gérard, and S. Jackson, “OP-GaAs OPO pumped by 2 μm Q-switched lasers: Tm; Ho: silica fiber laser and Ho: YAG laser,” in Technologies for Optical Countermeasures VII, vol. 7836 (International Society for Optics and Photonics, 2010), p. 783607.
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Hinkelmann, M.

Holt, J.

L. Lüer, G. Lanzani, J. Crochet, T. Hertel, J. Holt, and Z. V. Vardeny, “Ultrafast dynamics in metallic and semiconducting carbon nanotubes,” Phys. Rev. B 80, 205411 (2009).
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Honzatko, P.

Hou, J.

G. Liu, K. Yin, L. Yang, Z. Cai, B. Zhang, and J. Hou, “Noise-like pulse generation from a Ho-doped fiber laser based on nonlinear polarization rotation,” in 2017 International Conference on Optical Instruments and Technology: Advanced Laser Technology and Applications, vol. 10619 (International Society for Optics and Photonics, 2018), p. 1061908.

Hou, L.

Howe, R.

D. Li, H. Jussila, Y. Wang, G. Hu, T. Albrow-Owen, R. Howe, Z. Ren, J. Bai, T. Hasan, and Z. Sun, “Wavelength and pulse duration tunable ultrafast fiber laser mode-locked with carbon nanotubes,” Sci. Reports 8, 2738 (2018).
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Howe, R. C.

S. Xu, F. Wang, C. Zhu, Y. Meng, Y. Liu, W. Liu, J. Tang, K. Liu, G. Hu, R. C. Howe, T. Hasan, R. Zhang, Y. Shi, and Y. Xu, “Ultrafast nonlinear photoresponse of single-wall carbon nanotubes: a broadband degenerate investigation,” Nanoscale 8, 9304–9309 (2016).
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Hu, G.

D. Li, H. Jussila, Y. Wang, G. Hu, T. Albrow-Owen, R. Howe, Z. Ren, J. Bai, T. Hasan, and Z. Sun, “Wavelength and pulse duration tunable ultrafast fiber laser mode-locked with carbon nanotubes,” Sci. Reports 8, 2738 (2018).
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S. Xu, F. Wang, C. Zhu, Y. Meng, Y. Liu, W. Liu, J. Tang, K. Liu, G. Hu, R. C. Howe, T. Hasan, R. Zhang, Y. Shi, and Y. Xu, “Ultrafast nonlinear photoresponse of single-wall carbon nanotubes: a broadband degenerate investigation,” Nanoscale 8, 9304–9309 (2016).
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Huang, J.-L.

M. Ouyang, J.-L. Huang, C. L. Cheung, and C. M. Lieber, “Energy gaps in “metallic” single-walled carbon nanotubes,” Science 292, 702–705 (2001).
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Im, J. H.

Ippen, E.

T. Schibli, E. Thoen, F. Kärtner, and E. Ippen, “Suppression of Q-switched mode locking and break-up into multiple pulses by inverse saturable absorption,” Appl. Phys. B 70, S41–S49 (2000).
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Ismail-Beigi, S.

C. D. Spataru, S. Ismail-Beigi, L. X. Benedict, and S. G. Louie, “Excitonic effects and optical spectra of single-walled carbon nanotubes,” Phys. Rev. Lett. 92, 077402 (2004).
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Itoga, E.

Itoh, K.

Ivanenko, A.

Jablonski, M.

S. Y. Set, H. Yaguchi, Y. Tanaka, and M. Jablonski, “Ultrafast fiber pulsed lasers incorporating carbon nanotubes,” IEEE J. Sel. Top. Quantum Electron. 10, 137–146 (2004).
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S. Y. Set, H. Yaguchi, Y. Tanaka, and M. Jablonski, “Laser mode locking using a saturable absorber incorporating carbon nanotubes,” J. Light. Technol. 22, 51–56 (2004).
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C. S. Goh, K. Kikuchi, S. Y. Set, D. Tanaka, T. Kotake, M. Jablonski, S. Yamashita, and T. Kobayashi, “Femtosecond mode-locking of a ytterbium-doped fiber laser using a carbon-nanotube-based mode-locker with ultra-wide absorption band,” in (CLEO). Conference on Lasers and Electro-Optics, vol. 3 (2005), pp. 1644–1646.
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S. Y. Set, H. Yaguchi, Y. Tanaka, M. Jablonski, Y. Sakakibara, A. Rozhin, M. Tokumoto, H. Kataura, Y. Achiba, and K. Kikuchi, “Mode-locked fiber lasers based on a saturable absorber incorporating carbon nanotubes,” in OFC 2003 Optical Fiber Communications Conference, (2003), p. PD44.
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Jackson, S.

C. Kieleck, A. Hildenbrand, M. Eichhorn, D. Faye, E. Lallier, B. Gérard, and S. Jackson, “OP-GaAs OPO pumped by 2 μm Q-switched lasers: Tm; Ho: silica fiber laser and Ho: YAG laser,” in Technologies for Optical Countermeasures VII, vol. 7836 (International Society for Optics and Photonics, 2010), p. 783607.
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Judek, J.

G. Sobon, A. Duzynska, M. Świniarski, J. Judek, J. Sotor, and M. Zdrojek, “CNT-based saturable absorbers with scalable modulation depth for Thulium-doped fiber lasers operating at 1.9 μm,” Sci. Reports 7, 45491 (2017).
[Crossref]

A. Duzynska, M. Swiniarski, A. Wroblewska, A. Lapinska, K. Zeranska, J. Judek, and M. Zdrojek, “Phonon properties in different types of single-walled carbon nanotube thin films probed by Raman spectroscopy,” Carbon 105, 377–386 (2016).
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Jussila, H.

D. Li, H. Jussila, Y. Wang, G. Hu, T. Albrow-Owen, R. Howe, Z. Ren, J. Bai, T. Hasan, and Z. Sun, “Wavelength and pulse duration tunable ultrafast fiber laser mode-locked with carbon nanotubes,” Sci. Reports 8, 2738 (2018).
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Kaczmarek, P.

Kamaras, K.

Z. Wu, Z. Chen, X. Du, J. M. Logan, J. Sippel, M. Nikolou, K. Kamaras, J. R. Reynolds, D. B. Tanner, A. F. Hebard, and A. G. Rinzler, “Transparent, conductive carbon nanotube films,” Science 305, 1273–1276 (2004).
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Kamynin, V. A.

S. A. Filatova, V. A. Kamynin, N. R. Arutyunyan, A. S. Pozharov, A. I. Trikshev, I. V. Zhluktova, I. O. Zolotovskii, E. D. Obraztsova, and V. B. Tsvetkov, “Hybrid mode locking of an all-fiber holmium laser,” JOSA B 35, 3122–3125 (2018).
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Kärtner, F.

T. Schibli, E. Thoen, F. Kärtner, and E. Ippen, “Suppression of Q-switched mode locking and break-up into multiple pulses by inverse saturable absorption,” Appl. Phys. B 70, S41–S49 (2000).
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Kasik, I.

Kataura, H.

N. Nishizawa, Y. Seno, K. Sumimura, Y. Sakakibara, E. Itoga, H. Kataura, and K. Itoh, “All-polarization-maintaining Er-doped ultrashort-pulse fiber laser using carbon nanotube saturable absorber,” Opt. Express 16, 9429–9435 (2008).
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T. R. Schibli, K. Minoshima, H. Kataura, E. Itoga, N. Minami, S. Kazaoui, K. Miyashita, M. Tokumoto, and Y. Sakakibara, “Ultrashort pulse-generation by saturable absorber mirrors based on polymer-embedded carbon nanotubes,” Opt. Express 13, 8025–8031 (2005).
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H. Kataura, Y. Kumazawa, Y. Maniwa, I. Umezu, S. Suzuki, Y. Ohtsuka, and Y. Achiba, “Optical properties of single-wall carbon nanotubes,” Synth. Met. 103, 2555–2558 (1999).
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S. Y. Set, H. Yaguchi, Y. Tanaka, M. Jablonski, Y. Sakakibara, A. Rozhin, M. Tokumoto, H. Kataura, Y. Achiba, and K. Kikuchi, “Mode-locked fiber lasers based on a saturable absorber incorporating carbon nanotubes,” in OFC 2003 Optical Fiber Communications Conference, (2003), p. PD44.
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Kazaoui, S.

Kelleher, E. J.

E. J. 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, 790–794 (2010).
[Crossref]

Kieleck, C.

C. Kieleck, A. Hildenbrand, M. Eichhorn, D. Faye, E. Lallier, B. Gérard, and S. Jackson, “OP-GaAs OPO pumped by 2 μm Q-switched lasers: Tm; Ho: silica fiber laser and Ho: YAG laser,” in Technologies for Optical Countermeasures VII, vol. 7836 (International Society for Optics and Photonics, 2010), p. 783607.
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K. Kieu and F. W. Wise, “Soliton thulium-doped fiber laser with carbon nanotube saturable absorber,” IEEE Photonics Technol. Lett. 21, 128–130 (2009).
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S. Y. Set, H. Yaguchi, Y. Tanaka, M. Jablonski, Y. Sakakibara, A. Rozhin, M. Tokumoto, H. Kataura, Y. Achiba, and K. Kikuchi, “Mode-locked fiber lasers based on a saturable absorber incorporating carbon nanotubes,” in OFC 2003 Optical Fiber Communications Conference, (2003), p. PD44.
[Crossref]

C. S. Goh, K. Kikuchi, S. Y. Set, D. Tanaka, T. Kotake, M. Jablonski, S. Yamashita, and T. Kobayashi, “Femtosecond mode-locking of a ytterbium-doped fiber laser using a carbon-nanotube-based mode-locker with ultra-wide absorption band,” in (CLEO). Conference on Lasers and Electro-Optics, vol. 3 (2005), pp. 1644–1646.
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Kim, K.

W. B. Cho, J. H. Yim, S. Y. Choi, S. Lee, A. Schmidt, G. Steinmeyer, U. Griebner, V. Petrov, D.-I. Yeom, K. Kim, and F. Rotermund, “Boosting the non linear optical response of carbon nanotube saturable absorbers for broadband mode-locking of bulk lasers,” Adv. Funct. Mater. 20, 1937–1943 (2010).
[Crossref]

J. H. Yim, W. B. Cho, S. Lee, Y. H. Ahn, K. Kim, H. Lim, G. Steinmeyer, V. Petrov, U. Griebner, and F. Rotermund, “Fabrication and characterization of ultrafast carbon nanotube saturable absorbers for solid-state laser mode locking near 1 μm,” Appl. Phys. Lett. 93, 161106 (2008).
[Crossref]

Kobayashi, T.

C. S. Goh, K. Kikuchi, S. Y. Set, D. Tanaka, T. Kotake, M. Jablonski, S. Yamashita, and T. Kobayashi, “Femtosecond mode-locking of a ytterbium-doped fiber laser using a carbon-nanotube-based mode-locker with ultra-wide absorption band,” in (CLEO). Conference on Lasers and Electro-Optics, vol. 3 (2005), pp. 1644–1646.
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Kobtsev, S.

Kokhanovskiy, A.

Koopmann, P.

K. Scholle, S. Lamrini, P. Koopmann, and P. Fuhrberg, “2 μm laser sources and their possible applications,” in Frontiers in Guided Wave Optics and Optoelectronics, B. Pal, ed. (InTech, 2010).
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Kotake, T.

Y.-W. Song, S. Y. Set, S. Yamashita, C. S. Goh, and T. Kotake, “1300-nm pulsed fiber lasers mode-locked by purified carbon nanotubes,” IEEE Photonics Technol. Lett. 17, 1623–1625 (2005).
[Crossref]

C. S. Goh, K. Kikuchi, S. Y. Set, D. Tanaka, T. Kotake, M. Jablonski, S. Yamashita, and T. Kobayashi, “Femtosecond mode-locking of a ytterbium-doped fiber laser using a carbon-nanotube-based mode-locker with ultra-wide absorption band,” in (CLEO). Conference on Lasers and Electro-Optics, vol. 3 (2005), pp. 1644–1646.
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Kracht, D.

Kumazawa, Y.

H. Kataura, Y. Kumazawa, Y. Maniwa, I. Umezu, S. Suzuki, Y. Ohtsuka, and Y. Achiba, “Optical properties of single-wall carbon nanotubes,” Synth. Met. 103, 2555–2558 (1999).
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Kurkov, A.

Kurkov, A. S.

A. Y. Chamorovskiy, A. V. Marakulin, A. S. Kurkov, and O. G. Okhotnikov, “Tunable Ho-doped soliton fiber laser mode-locked by carbon nanotube saturable absorber,” Laser Phys. Lett. 9, 602–606 (2012).
[Crossref]

Lallier, E.

C. Kieleck, A. Hildenbrand, M. Eichhorn, D. Faye, E. Lallier, B. Gérard, and S. Jackson, “OP-GaAs OPO pumped by 2 μm Q-switched lasers: Tm; Ho: silica fiber laser and Ho: YAG laser,” in Technologies for Optical Countermeasures VII, vol. 7836 (International Society for Optics and Photonics, 2010), p. 783607.
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Lamrini, S.

K. Scholle, S. Lamrini, P. Koopmann, and P. Fuhrberg, “2 μm laser sources and their possible applications,” in Frontiers in Guided Wave Optics and Optoelectronics, B. Pal, ed. (InTech, 2010).
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Lanzani, G.

L. Lüer, G. Lanzani, J. Crochet, T. Hertel, J. Holt, and Z. V. Vardeny, “Ultrafast dynamics in metallic and semiconducting carbon nanotubes,” Phys. Rev. B 80, 205411 (2009).
[Crossref]

Lapinska, A.

A. Duzynska, M. Swiniarski, A. Wroblewska, A. Lapinska, K. Zeranska, J. Judek, and M. Zdrojek, “Phonon properties in different types of single-walled carbon nanotube thin films probed by Raman spectroscopy,” Carbon 105, 377–386 (2016).
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Tang, J.

S. Xu, F. Wang, C. Zhu, Y. Meng, Y. Liu, W. Liu, J. Tang, K. Liu, G. Hu, R. C. Howe, T. Hasan, R. Zhang, Y. Shi, and Y. Xu, “Ultrafast nonlinear photoresponse of single-wall carbon nanotubes: a broadband degenerate investigation,” Nanoscale 8, 9304–9309 (2016).
[Crossref] [PubMed]

Tang, Z.

Tanner, D. B.

Z. Wu, Z. Chen, X. Du, J. M. Logan, J. Sippel, M. Nikolou, K. Kamaras, J. R. Reynolds, D. B. Tanner, A. F. Hebard, and A. G. Rinzler, “Transparent, conductive carbon nanotube films,” Science 305, 1273–1276 (2004).
[Crossref] [PubMed]

Tavast, M.

Taylor, J. R.

E. J. 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, 790–794 (2010).
[Crossref]

Thoen, E.

T. Schibli, E. Thoen, F. Kärtner, and E. Ippen, “Suppression of Q-switched mode locking and break-up into multiple pulses by inverse saturable absorption,” Appl. Phys. B 70, S41–S49 (2000).
[Crossref]

Thóvenaz, L.

S. Schilt, K. H. Tow, R. Matthey, M. Petersen, L. Thóvenaz, and T. Südmeyer, “First investigation of an all-fiber versatile laser frequency reference at 2 μm for CO2 lidar applications,” in International Conference on Space Optics — ICSO 2016, vol. 10562 (International Society for Optics and Photonics, 2017), p. 105620I.
[Crossref]

Tokumoto, M.

T. R. Schibli, K. Minoshima, H. Kataura, E. Itoga, N. Minami, S. Kazaoui, K. Miyashita, M. Tokumoto, and Y. Sakakibara, “Ultrashort pulse-generation by saturable absorber mirrors based on polymer-embedded carbon nanotubes,” Opt. Express 13, 8025–8031 (2005).
[Crossref] [PubMed]

S. Y. Set, H. Yaguchi, Y. Tanaka, M. Jablonski, Y. Sakakibara, A. Rozhin, M. Tokumoto, H. Kataura, Y. Achiba, and K. Kikuchi, “Mode-locked fiber lasers based on a saturable absorber incorporating carbon nanotubes,” in OFC 2003 Optical Fiber Communications Conference, (2003), p. PD44.
[Crossref]

Tow, K. H.

S. Schilt, K. H. Tow, R. Matthey, M. Petersen, L. Thóvenaz, and T. Südmeyer, “First investigation of an all-fiber versatile laser frequency reference at 2 μm for CO2 lidar applications,” in International Conference on Space Optics — ICSO 2016, vol. 10562 (International Society for Optics and Photonics, 2017), p. 105620I.
[Crossref]

Travers, J. C.

E. J. 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, 790–794 (2010).
[Crossref]

Trikshev, A. I.

S. A. Filatova, V. A. Kamynin, N. R. Arutyunyan, A. S. Pozharov, A. I. Trikshev, I. V. Zhluktova, I. O. Zolotovskii, E. D. Obraztsova, and V. B. Tsvetkov, “Hybrid mode locking of an all-fiber holmium laser,” JOSA B 35, 3122–3125 (2018).
[Crossref]

Tsvetkov, V. B.

S. A. Filatova, V. A. Kamynin, N. R. Arutyunyan, A. S. Pozharov, A. I. Trikshev, I. V. Zhluktova, I. O. Zolotovskii, E. D. Obraztsova, and V. B. Tsvetkov, “Hybrid mode locking of an all-fiber holmium laser,” JOSA B 35, 3122–3125 (2018).
[Crossref]

Umezu, I.

H. Kataura, Y. Kumazawa, Y. Maniwa, I. Umezu, S. Suzuki, Y. Ohtsuka, and Y. Achiba, “Optical properties of single-wall carbon nanotubes,” Synth. Met. 103, 2555–2558 (1999).
[Crossref]

Vardeny, Z. V.

L. Lüer, G. Lanzani, J. Crochet, T. Hertel, J. Holt, and Z. V. Vardeny, “Ultrafast dynamics in metallic and semiconducting carbon nanotubes,” Phys. Rev. B 80, 205411 (2009).
[Crossref]

Wandt, D.

Wang, F.

Y. Meng, Y. Li, Y. Xu, and F. Wang, “Carbon nanotube mode-locked thulium fiber laser with 200 nm tuning range,” Sci. Reports 7, 45109 (2017).
[Crossref]

S. Xu, F. Wang, C. Zhu, Y. Meng, Y. Liu, W. Liu, J. Tang, K. Liu, G. Hu, R. C. Howe, T. Hasan, R. Zhang, Y. Shi, and Y. Xu, “Ultrafast nonlinear photoresponse of single-wall carbon nanotubes: a broadband degenerate investigation,” Nanoscale 8, 9304–9309 (2016).
[Crossref] [PubMed]

X. Liu, D. Han, Z. Sun, C. Zeng, H. Lu, D. Mao, Y. Cui, and F. Wang, “Versatile multi-wavelength ultrafast fiber laser mode-locked by carbon nanotubes,” Sci. Reports 3, 2718 (2013).
[Crossref]

Z. Sun, T. Hasan, F. Wang, A. G. Rozhin, I. H. White, and A. C. Ferrari, “Ultrafast stretched-pulse fiber laser mode-locked by carbon nanotubes,” Nano Res. 3, 404–411 (2010).
[Crossref]

Wang, X.

L. N. Duan, L. Li, Y. G. Wang, and X. Wang, “All-fiber dissipative soliton laser based on single-walled carbon nanotube absorber in normal dispersion regime,” Optik 137, 308–312 (2017).
[Crossref]

Wang, Y.

D. Li, H. Jussila, Y. Wang, G. Hu, T. Albrow-Owen, R. Howe, Z. Ren, J. Bai, T. Hasan, and Z. Sun, “Wavelength and pulse duration tunable ultrafast fiber laser mode-locked with carbon nanotubes,” Sci. Reports 8, 2738 (2018).
[Crossref]

L. Hou, H. Guo, Y. Wang, J. Sun, Q. Lin, Y. Bai, and J. Bai, “Sub-200 femtosecond dispersion-managed soliton ytterbium-doped fiber laser based on carbon nanotubes saturable absorber,” Opt. Express 26, 9063–9070 (2018).
[Crossref] [PubMed]

Wang, Y. G.

L. N. Duan, L. Li, Y. G. Wang, and X. Wang, “All-fiber dissipative soliton laser based on single-walled carbon nanotube absorber in normal dispersion regime,” Optik 137, 308–312 (2017).
[Crossref]

White, I. H.

Z. Sun, T. Hasan, F. Wang, A. G. Rozhin, I. H. White, and A. C. Ferrari, “Ultrafast stretched-pulse fiber laser mode-locked by carbon nanotubes,” Nano Res. 3, 404–411 (2010).
[Crossref]

Wise, F. W.

K. Kieu and F. W. Wise, “Soliton thulium-doped fiber laser with carbon nanotube saturable absorber,” IEEE Photonics Technol. Lett. 21, 128–130 (2009).
[Crossref] [PubMed]

Wroblewska, A.

A. Duzynska, M. Swiniarski, A. Wroblewska, A. Lapinska, K. Zeranska, J. Judek, and M. Zdrojek, “Phonon properties in different types of single-walled carbon nanotube thin films probed by Raman spectroscopy,” Carbon 105, 377–386 (2016).
[Crossref]

Wu, Z.

Z. Wu, Z. Chen, X. Du, J. M. Logan, J. Sippel, M. Nikolou, K. Kamaras, J. R. Reynolds, D. B. Tanner, A. F. Hebard, and A. G. Rinzler, “Transparent, conductive carbon nanotube films,” Science 305, 1273–1276 (2004).
[Crossref] [PubMed]

Xu, S.

S. Xu, F. Wang, C. Zhu, Y. Meng, Y. Liu, W. Liu, J. Tang, K. Liu, G. Hu, R. C. Howe, T. Hasan, R. Zhang, Y. Shi, and Y. Xu, “Ultrafast nonlinear photoresponse of single-wall carbon nanotubes: a broadband degenerate investigation,” Nanoscale 8, 9304–9309 (2016).
[Crossref] [PubMed]

Xu, X.

Xu, Y.

Y. Meng, Y. Li, Y. Xu, and F. Wang, “Carbon nanotube mode-locked thulium fiber laser with 200 nm tuning range,” Sci. Reports 7, 45109 (2017).
[Crossref]

S. Xu, F. Wang, C. Zhu, Y. Meng, Y. Liu, W. Liu, J. Tang, K. Liu, G. Hu, R. C. Howe, T. Hasan, R. Zhang, Y. Shi, and Y. Xu, “Ultrafast nonlinear photoresponse of single-wall carbon nanotubes: a broadband degenerate investigation,” Nanoscale 8, 9304–9309 (2016).
[Crossref] [PubMed]

Yaguchi, H.

S. Y. Set, H. Yaguchi, Y. Tanaka, and M. Jablonski, “Ultrafast fiber pulsed lasers incorporating carbon nanotubes,” IEEE J. Sel. Top. Quantum Electron. 10, 137–146 (2004).
[Crossref]

S. Y. Set, H. Yaguchi, Y. Tanaka, and M. Jablonski, “Laser mode locking using a saturable absorber incorporating carbon nanotubes,” J. Light. Technol. 22, 51–56 (2004).
[Crossref]

S. Y. Set, H. Yaguchi, Y. Tanaka, M. Jablonski, Y. Sakakibara, A. Rozhin, M. Tokumoto, H. Kataura, Y. Achiba, and K. Kikuchi, “Mode-locked fiber lasers based on a saturable absorber incorporating carbon nanotubes,” in OFC 2003 Optical Fiber Communications Conference, (2003), p. PD44.
[Crossref]

Yamashita, S.

Y.-W. Song, S. Yamashita, and S. Maruyama, “Single-walled carbon nanotubes for high-energy optical pulse formation,” Appl. Phys. Lett. 92, 021115 (2008).
[Crossref]

Y.-W. Song, S. Y. Set, S. Yamashita, C. S. Goh, and T. Kotake, “1300-nm pulsed fiber lasers mode-locked by purified carbon nanotubes,” IEEE Photonics Technol. Lett. 17, 1623–1625 (2005).
[Crossref]

C. S. Goh, K. Kikuchi, S. Y. Set, D. Tanaka, T. Kotake, M. Jablonski, S. Yamashita, and T. Kobayashi, “Femtosecond mode-locking of a ytterbium-doped fiber laser using a carbon-nanotube-based mode-locker with ultra-wide absorption band,” in (CLEO). Conference on Lasers and Electro-Optics, vol. 3 (2005), pp. 1644–1646.
[Crossref]

Yang, L.

G. Liu, K. Yin, L. Yang, Z. Cai, B. Zhang, and J. Hou, “Noise-like pulse generation from a Ho-doped fiber laser based on nonlinear polarization rotation,” in 2017 International Conference on Optical Instruments and Technology: Advanced Laser Technology and Applications, vol. 10619 (International Society for Optics and Photonics, 2018), p. 1061908.

Yeom, D.-I.

W. B. Cho, J. H. Yim, S. Y. Choi, S. Lee, A. Schmidt, G. Steinmeyer, U. Griebner, V. Petrov, D.-I. Yeom, K. Kim, and F. Rotermund, “Boosting the non linear optical response of carbon nanotube saturable absorbers for broadband mode-locking of bulk lasers,” Adv. Funct. Mater. 20, 1937–1943 (2010).
[Crossref]

J. H. Im, S. Y. Choi, F. Rotermund, and D.-I. Yeom, “All-fiber Er-doped dissipative soliton laser based on evanescent field interaction with carbon nanotube saturable absorber,” Opt. Express 18, 22141–22146 (2010).
[Crossref] [PubMed]

Yim, J. H.

W. B. Cho, J. H. Yim, S. Y. Choi, S. Lee, A. Schmidt, G. Steinmeyer, U. Griebner, V. Petrov, D.-I. Yeom, K. Kim, and F. Rotermund, “Boosting the non linear optical response of carbon nanotube saturable absorbers for broadband mode-locking of bulk lasers,” Adv. Funct. Mater. 20, 1937–1943 (2010).
[Crossref]

A. Schmidt, S. Rivier, G. Steinmeyer, J. H. Yim, W. B. Cho, S. Lee, F. Rotermund, M. C. Pujol, X. Mateos, M. Aguiló, F. Díaz, V. Petrov, and U. Griebner, “Passive mode locking of Yb:KLuW using a single-walled carbon nanotube saturable absorber,” Opt. Lett. 33, 729–731 (2008).
[Crossref] [PubMed]

J. H. Yim, W. B. Cho, S. Lee, Y. H. Ahn, K. Kim, H. Lim, G. Steinmeyer, V. Petrov, U. Griebner, and F. Rotermund, “Fabrication and characterization of ultrafast carbon nanotube saturable absorbers for solid-state laser mode locking near 1 μm,” Appl. Phys. Lett. 93, 161106 (2008).
[Crossref]

Yin, K.

G. Liu, K. Yin, L. Yang, Z. Cai, B. Zhang, and J. Hou, “Noise-like pulse generation from a Ho-doped fiber laser based on nonlinear polarization rotation,” in 2017 International Conference on Optical Instruments and Technology: Advanced Laser Technology and Applications, vol. 10619 (International Society for Optics and Photonics, 2018), p. 1061908.

Zdrojek, M.

G. Sobon, A. Duzynska, M. Świniarski, J. Judek, J. Sotor, and M. Zdrojek, “CNT-based saturable absorbers with scalable modulation depth for Thulium-doped fiber lasers operating at 1.9 μm,” Sci. Reports 7, 45491 (2017).
[Crossref]

A. Duzynska, M. Swiniarski, A. Wroblewska, A. Lapinska, K. Zeranska, J. Judek, and M. Zdrojek, “Phonon properties in different types of single-walled carbon nanotube thin films probed by Raman spectroscopy,” Carbon 105, 377–386 (2016).
[Crossref]

Zeng, C.

X. Liu, D. Han, Z. Sun, C. Zeng, H. Lu, D. Mao, Y. Cui, and F. Wang, “Versatile multi-wavelength ultrafast fiber laser mode-locked by carbon nanotubes,” Sci. Reports 3, 2718 (2013).
[Crossref]

Zeranska, K.

A. Duzynska, M. Swiniarski, A. Wroblewska, A. Lapinska, K. Zeranska, J. Judek, and M. Zdrojek, “Phonon properties in different types of single-walled carbon nanotube thin films probed by Raman spectroscopy,” Carbon 105, 377–386 (2016).
[Crossref]

Zhai, J.

Zhang, B.

G. Liu, K. Yin, L. Yang, Z. Cai, B. Zhang, and J. Hou, “Noise-like pulse generation from a Ho-doped fiber laser based on nonlinear polarization rotation,” in 2017 International Conference on Optical Instruments and Technology: Advanced Laser Technology and Applications, vol. 10619 (International Society for Optics and Photonics, 2018), p. 1061908.

Zhang, H.

Zhang, R.

S. Xu, F. Wang, C. Zhu, Y. Meng, Y. Liu, W. Liu, J. Tang, K. Liu, G. Hu, R. C. Howe, T. Hasan, R. Zhang, Y. Shi, and Y. Xu, “Ultrafast nonlinear photoresponse of single-wall carbon nanotubes: a broadband degenerate investigation,” Nanoscale 8, 9304–9309 (2016).
[Crossref] [PubMed]

Zhluktova, I. V.

S. A. Filatova, V. A. Kamynin, N. R. Arutyunyan, A. S. Pozharov, A. I. Trikshev, I. V. Zhluktova, I. O. Zolotovskii, E. D. Obraztsova, and V. B. Tsvetkov, “Hybrid mode locking of an all-fiber holmium laser,” JOSA B 35, 3122–3125 (2018).
[Crossref]

Zhu, C.

S. Xu, F. Wang, C. Zhu, Y. Meng, Y. Liu, W. Liu, J. Tang, K. Liu, G. Hu, R. C. Howe, T. Hasan, R. Zhang, Y. Shi, and Y. Xu, “Ultrafast nonlinear photoresponse of single-wall carbon nanotubes: a broadband degenerate investigation,” Nanoscale 8, 9304–9309 (2016).
[Crossref] [PubMed]

Zolotovskii, I. O.

S. A. Filatova, V. A. Kamynin, N. R. Arutyunyan, A. S. Pozharov, A. I. Trikshev, I. V. Zhluktova, I. O. Zolotovskii, E. D. Obraztsova, and V. B. Tsvetkov, “Hybrid mode locking of an all-fiber holmium laser,” JOSA B 35, 3122–3125 (2018).
[Crossref]

Adv. Funct. Mater. (1)

W. B. Cho, J. H. Yim, S. Y. Choi, S. Lee, A. Schmidt, G. Steinmeyer, U. Griebner, V. Petrov, D.-I. Yeom, K. Kim, and F. Rotermund, “Boosting the non linear optical response of carbon nanotube saturable absorbers for broadband mode-locking of bulk lasers,” Adv. Funct. Mater. 20, 1937–1943 (2010).
[Crossref]

Appl. Phys. B (1)

T. Schibli, E. Thoen, F. Kärtner, and E. Ippen, “Suppression of Q-switched mode locking and break-up into multiple pulses by inverse saturable absorption,” Appl. Phys. B 70, S41–S49 (2000).
[Crossref]

Appl. Phys. Lett. (2)

Y.-W. Song, S. Yamashita, and S. Maruyama, “Single-walled carbon nanotubes for high-energy optical pulse formation,” Appl. Phys. Lett. 92, 021115 (2008).
[Crossref]

J. H. Yim, W. B. Cho, S. Lee, Y. H. Ahn, K. Kim, H. Lim, G. Steinmeyer, V. Petrov, U. Griebner, and F. Rotermund, “Fabrication and characterization of ultrafast carbon nanotube saturable absorbers for solid-state laser mode locking near 1 μm,” Appl. Phys. Lett. 93, 161106 (2008).
[Crossref]

Carbon (1)

A. Duzynska, M. Swiniarski, A. Wroblewska, A. Lapinska, K. Zeranska, J. Judek, and M. Zdrojek, “Phonon properties in different types of single-walled carbon nanotube thin films probed by Raman spectroscopy,” Carbon 105, 377–386 (2016).
[Crossref]

IEEE J. Sel. Top. Quantum Electron. (1)

S. Y. Set, H. Yaguchi, Y. Tanaka, and M. Jablonski, “Ultrafast fiber pulsed lasers incorporating carbon nanotubes,” IEEE J. Sel. Top. Quantum Electron. 10, 137–146 (2004).
[Crossref]

IEEE Photonics Technol. Lett. (2)

Y.-W. Song, S. Y. Set, S. Yamashita, C. S. Goh, and T. Kotake, “1300-nm pulsed fiber lasers mode-locked by purified carbon nanotubes,” IEEE Photonics Technol. Lett. 17, 1623–1625 (2005).
[Crossref]

K. Kieu and F. W. Wise, “Soliton thulium-doped fiber laser with carbon nanotube saturable absorber,” IEEE Photonics Technol. Lett. 21, 128–130 (2009).
[Crossref] [PubMed]

J. Light. Technol. (1)

S. Y. Set, H. Yaguchi, Y. Tanaka, and M. Jablonski, “Laser mode locking using a saturable absorber incorporating carbon nanotubes,” J. Light. Technol. 22, 51–56 (2004).
[Crossref]

JOSA B (1)

S. A. Filatova, V. A. Kamynin, N. R. Arutyunyan, A. S. Pozharov, A. I. Trikshev, I. V. Zhluktova, I. O. Zolotovskii, E. D. Obraztsova, and V. B. Tsvetkov, “Hybrid mode locking of an all-fiber holmium laser,” JOSA B 35, 3122–3125 (2018).
[Crossref]

Laser Phys. Lett. (3)

P. Li, A. Ruehl, C. Bransley, and I. Hartl, “Low noise, tunable Ho:fiber soliton oscillator for Ho:YLF amplifier seeding,” Laser Phys. Lett. 13, 065104 (2016).
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A. Y. Chamorovskiy, A. V. Marakulin, A. S. Kurkov, and O. G. Okhotnikov, “Tunable Ho-doped soliton fiber laser mode-locked by carbon nanotube saturable absorber,” Laser Phys. Lett. 9, 602–606 (2012).
[Crossref]

E. J. 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, 790–794 (2010).
[Crossref]

Nano Res. (1)

Z. Sun, T. Hasan, F. Wang, A. G. Rozhin, I. H. White, and A. C. Ferrari, “Ultrafast stretched-pulse fiber laser mode-locked by carbon nanotubes,” Nano Res. 3, 404–411 (2010).
[Crossref]

Nanoscale (1)

S. Xu, F. Wang, C. Zhu, Y. Meng, Y. Liu, W. Liu, J. Tang, K. Liu, G. Hu, R. C. Howe, T. Hasan, R. Zhang, Y. Shi, and Y. Xu, “Ultrafast nonlinear photoresponse of single-wall carbon nanotubes: a broadband degenerate investigation,” Nanoscale 8, 9304–9309 (2016).
[Crossref] [PubMed]

Opt. Express (7)

T. R. Schibli, K. Minoshima, H. Kataura, E. Itoga, N. Minami, S. Kazaoui, K. Miyashita, M. Tokumoto, and Y. Sakakibara, “Ultrashort pulse-generation by saturable absorber mirrors based on polymer-embedded carbon nanotubes,” Opt. Express 13, 8025–8031 (2005).
[Crossref] [PubMed]

N. Nishizawa, Y. Seno, K. Sumimura, Y. Sakakibara, E. Itoga, H. Kataura, and K. Itoh, “All-polarization-maintaining Er-doped ultrashort-pulse fiber laser using carbon nanotube saturable absorber,” Opt. Express 16, 9429–9435 (2008).
[Crossref] [PubMed]

J. H. Im, S. Y. Choi, F. Rotermund, and D.-I. Yeom, “All-fiber Er-doped dissipative soliton laser based on evanescent field interaction with carbon nanotube saturable absorber,” Opt. Express 18, 22141–22146 (2010).
[Crossref] [PubMed]

S. Kobtsev, A. Ivanenko, Y. G. Gladush, B. Nyushkov, A. Kokhanovskiy, A. S. Anisimov, and A. G. Nasibulin, “Ultrafast all-fibre laser mode-locked by polymer-free carbon nanotube film,” Opt. Express 24, 28768–28773 (2016).
[Crossref] [PubMed]

M. Pawliszewska, Y. Ge, Z. Li, H. Zhang, and J. Sotor, “Fundamental and harmonic mode-locking at 2.1 μm with black phosphorus saturable absorber,” Opt. Express 25, 16916–16921 (2017).
[Crossref] [PubMed]

M. Hinkelmann, D. Wandt, U. Morgner, J. Neumann, and D. Kracht, “Mode-locked Ho-doped laser with subsequent diode-pumped amplifier in an all-fiber design operating at 2052 nm,” Opt. Express 25, 20522–20529 (2017).
[Crossref] [PubMed]

L. Hou, H. Guo, Y. Wang, J. Sun, Q. Lin, Y. Bai, and J. Bai, “Sub-200 femtosecond dispersion-managed soliton ytterbium-doped fiber laser based on carbon nanotubes saturable absorber,” Opt. Express 26, 9063–9070 (2018).
[Crossref] [PubMed]

Opt. Lett. (4)

Optik (1)

L. N. Duan, L. Li, Y. G. Wang, and X. Wang, “All-fiber dissipative soliton laser based on single-walled carbon nanotube absorber in normal dispersion regime,” Optik 137, 308–312 (2017).
[Crossref]

Photon. Res. (1)

Photonics Res. (1)

G. Soboń, “Mode-locking of fiber lasers using novel two-dimensional nanomaterials: graphene and topological insulators [Invited],” Photonics Res. 3, A56–A63 (2015).
[Crossref]

Phys. Rev. B (1)

L. Lüer, G. Lanzani, J. Crochet, T. Hertel, J. Holt, and Z. V. Vardeny, “Ultrafast dynamics in metallic and semiconducting carbon nanotubes,” Phys. Rev. B 80, 205411 (2009).
[Crossref]

Phys. Rev. Lett. (1)

C. D. Spataru, S. Ismail-Beigi, L. X. Benedict, and S. G. Louie, “Excitonic effects and optical spectra of single-walled carbon nanotubes,” Phys. Rev. Lett. 92, 077402 (2004).
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Sci. Reports (4)

G. Sobon, A. Duzynska, M. Świniarski, J. Judek, J. Sotor, and M. Zdrojek, “CNT-based saturable absorbers with scalable modulation depth for Thulium-doped fiber lasers operating at 1.9 μm,” Sci. Reports 7, 45491 (2017).
[Crossref]

Y. Meng, Y. Li, Y. Xu, and F. Wang, “Carbon nanotube mode-locked thulium fiber laser with 200 nm tuning range,” Sci. Reports 7, 45109 (2017).
[Crossref]

X. Liu, D. Han, Z. Sun, C. Zeng, H. Lu, D. Mao, Y. Cui, and F. Wang, “Versatile multi-wavelength ultrafast fiber laser mode-locked by carbon nanotubes,” Sci. Reports 3, 2718 (2013).
[Crossref]

D. Li, H. Jussila, Y. Wang, G. Hu, T. Albrow-Owen, R. Howe, Z. Ren, J. Bai, T. Hasan, and Z. Sun, “Wavelength and pulse duration tunable ultrafast fiber laser mode-locked with carbon nanotubes,” Sci. Reports 8, 2738 (2018).
[Crossref]

Science (2)

M. Ouyang, J.-L. Huang, C. L. Cheung, and C. M. Lieber, “Energy gaps in “metallic” single-walled carbon nanotubes,” Science 292, 702–705 (2001).
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Z. Wu, Z. Chen, X. Du, J. M. Logan, J. Sippel, M. Nikolou, K. Kamaras, J. R. Reynolds, D. B. Tanner, A. F. Hebard, and A. G. Rinzler, “Transparent, conductive carbon nanotube films,” Science 305, 1273–1276 (2004).
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Synth. Met. (1)

H. Kataura, Y. Kumazawa, Y. Maniwa, I. Umezu, S. Suzuki, Y. Ohtsuka, and Y. Achiba, “Optical properties of single-wall carbon nanotubes,” Synth. Met. 103, 2555–2558 (1999).
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The J. Phys. Chem. Lett. (1)

Y. Matsuda, J. Tahir-Kheli, and W. A. Goddard, “Definitive band gaps for single-wall carbon nanotubes,” The J. Phys. Chem. Lett. 1, 2946–2950 (2010).
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K. Scholle, S. Lamrini, P. Koopmann, and P. Fuhrberg, “2 μm laser sources and their possible applications,” in Frontiers in Guided Wave Optics and Optoelectronics, B. Pal, ed. (InTech, 2010).
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S. Schilt, K. H. Tow, R. Matthey, M. Petersen, L. Thóvenaz, and T. Südmeyer, “First investigation of an all-fiber versatile laser frequency reference at 2 μm for CO2 lidar applications,” in International Conference on Space Optics — ICSO 2016, vol. 10562 (International Society for Optics and Photonics, 2017), p. 105620I.
[Crossref]

C. Kieleck, A. Hildenbrand, M. Eichhorn, D. Faye, E. Lallier, B. Gérard, and S. Jackson, “OP-GaAs OPO pumped by 2 μm Q-switched lasers: Tm; Ho: silica fiber laser and Ho: YAG laser,” in Technologies for Optical Countermeasures VII, vol. 7836 (International Society for Optics and Photonics, 2010), p. 783607.
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G. Liu, K. Yin, L. Yang, Z. Cai, B. Zhang, and J. Hou, “Noise-like pulse generation from a Ho-doped fiber laser based on nonlinear polarization rotation,” in 2017 International Conference on Optical Instruments and Technology: Advanced Laser Technology and Applications, vol. 10619 (International Society for Optics and Photonics, 2018), p. 1061908.

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[Crossref]

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[Crossref]

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Figures (6)

Fig. 1
Fig. 1 SEM image of the m-SWCNT film with thickness 50 nm; scale bar represents 800 nm (a). VIS-IR absorbance spectrum of a 100 nm and 200 nm thick m-SWCNT film (b). Raman spectrum of the film shown on SEM image (c).
Fig. 2
Fig. 2 Spatial linear transmission measured across the 100 nm (a) and 200 nm (b) thick m-SWCNT samples (measured with a 1 mm spatial step at the wavelength of 2080 nm).
Fig. 3
Fig. 3 Power-dependent transmittance of a 100 nm (a), 200 nm (b), 300 nm (c) and 400 nm (d) CNT-SA. Squares - experimental data, red curve - theoretical fit.
Fig. 4
Fig. 4 Setup of the ring laser cavity (a). Performance of the laser operating in the solitonic regime with 400 nm thick CNT-SA and output coupling ratio of 30%: optical spectrum (b), radio frequency spectrum (c), and pulse autocorrelation (d).
Fig. 5
Fig. 5 Output optical laser spectra measured over the course of 70 hours.
Fig. 6
Fig. 6 Output optical spectrum evolution as a function of the net cavity dispersion (a). Optical spectrum (b), autocorrelation trace (c), repetition frequency and a radio frequency spectrum (d) of the laser with 70% output coupling ratio and −0.006 ps2 of the net cavity dispersion measured at the highest average output power of 84 mW.

Tables (1)

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Table 1 Influence of the m-SWCNT film thickness on laser performance. CNT - film thickness, λc - central wavelength, FWHM - optical bandwidth, Frep - pulse repetition frequency, τ - pulse duration, Pp - pumping power, Pavg - average output power, E - pulse energy, TBP - time-bandwidth product. Output coupling ratio was fixed at 30%.

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