Abstract

Phosphosilicate fiber has the inherent advantage of generating dual-wavelength output owing to the two Raman gain peaks at the frequency shifts of ∼13.2 THz (silica-related) and 39.9 THz (phosphorus-related), respectively. The frequency shift of 39.9 THz is often adopted to obtain long wavelength laser, while the control of Stokes light at 13.2 THz has attracted much attention currently. In this paper, a dual-wavelength random distributed feedback Raman fiber laser (RDFL) with over 100 nm wavelength interval and continuously tunable power proportion was presented based on phosphosilicate fiber for the first time. Through using the filtered amplified spontaneous emission (ASE) source as the pump source, the spectral purity of the Stokes light could be as high as 99.8%. By tuning two manual variable optical attenuators (VOAs), the power proportion of the silica-related Stokes light could range from ∼0% to 99.0%, and the maximum value is limited by the generation of second order Stokes light. Although the power handling capability of the VOA is merely 2 W, over 23 W total output power of the Stokes light was obtained thanks to the particular power distribution property of RDFL. This experiment demonstrates the potential to achieve a flexible high-power and high-spectral purity dual-wavelength RDFL output.

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

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References

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    [Crossref]

2019 (5)

2018 (9)

D. S. Kharenko, V. D. Efremov, E. A. Evmenova, and S. A. Babin, “Generation of Raman dissipative solitons near 1.3 microns in a phosphosilicate-fiber cavity,” Opt. Express 26(12), 15084–15089 (2018).
[Crossref]

J. Xu, P. Zhou, W. Liu, J. Leng, H. Xiao, P. Ma, J. Wu, H. Zhang, J. Chen, and Z. Liu, “Exploration in Performance Scaling and New Application Avenues of Superfluorescent Fiber Source,” IEEE J. Sel. Top. Quantum Electron. 24(3), 1–10 (2018).
[Crossref]

J. Ye, J. Xu, J. Song, H. Wu, H. Zhang, J. Wu, and P. Zhou, “Spectrum-agile hundred-watt-level high-power random fiber laser enabled by watt-level tunable optical filter,” Appl. Phys. Express 11(6), 062704 (2018).
[Crossref]

L. Huang, J. Xu, J. Ye, X. Liu, H. Zhang, X. Wang, and P. Zhou, “Power Scaling of Linearly Polarized Random Fiber Laser,” IEEE J. Sel. Top. Quantum Electron. 24(3), 1–8 (2018).
[Crossref]

H. Wu, P. Wang, J. Song, J. Ye, J. Xu, X. Li, and P. Zhou, “High power tunable mid-infrared optical parametric oscillator enabled by random fiber laser,” Opt. Express 26(5), 6446–6455 (2018).
[Crossref]

J. Dong, L. Zhang, H. Jiang, X. Yang, W. Pan, S. Cui, X. Gu, and Y. Feng, “High order cascaded Raman random fiber laser with high spectral purity,” Opt. Express 26(5), 5275–5280 (2018).
[Crossref]

V. Balaswamy, S. Arun, S. Aparanji, V. Choudhury, and V. R. Supradeepa, “High-power, fixed, and tunable wavelength, grating-free cascaded Raman fiber lasers,” Opt. Lett. 43(7), 1574–1577 (2018).
[Crossref]

W. Pan, L. Zhang, H. Jiang, X. Yang, S. Cui, and Y. Feng, “Ultrafast Raman fiber Laser with Random Distributed Feedback,” Laser Photonics Rev. 12(4), 1700326 (2018).
[Crossref]

H. Wu, J. Song, J. Ye, J. Xu, H. Zhang, J. Leng, and P. Zhou, “Hundred-watt-level linearly polarized tunable Raman random fiber laser,” Chin. Opt. Lett. 16(6), 061402 (2018).
[Crossref]

2017 (3)

2016 (3)

N. H. Z. Abidin, M. H. Abu Bakar, N. Tamchek, F. R. Mahamd Adikan, and M. A. Mahdi, “Reflectivity variation in asymmetric random distributed feedback Raman fiber laser,” Laser Phys. 26(1), 015105 (2016).
[Crossref]

B. C. Yao, Y. J. Rao, Z. N. Wang, Y. Wu, J. H. Zhou, H. Wu, M. Q. Fan, X. L. Cao, W. L. Zhang, Y. F. Chen, Y. R. Li, D. Churkin, S. Turitsyn, and C. W. Wong, “Graphene based widely-tunable and singly-polarized pulse generation with random fiber lasers,” Sci. Rep. 5(1), 18526 (2016).
[Crossref]

X. Jin, Z. Lou, H. Zhang, J. Xu, P. Zhou, and Z. Liu, “Random distributed feedback fiber laser at 2.1 µm,” Opt. Lett. 41(21), 4923–4926 (2016).
[Crossref]

2015 (3)

2014 (1)

2013 (2)

2012 (1)

2011 (1)

2010 (1)

S. K. Turitsyn, S. A. Babin, A. E. El-Taher, P. Harper, D. V. Churkin, S. I. Kablukov, J. D. Ania-Castañón, V. Karalekas, and E. V. Podivilov, “Random distributed feedback fibre laser,” Nat. Photonics 4(4), 231–235 (2010).
[Crossref]

2007 (1)

2004 (3)

Z. Xiong, N. Moore, Z. G. Li, G. C. Lim, D. M. Liu, and D. X. Huang, “Experimental optimization of high power Raman fiber lasers at 1495 nm using phosphosilicate fibers,” Opt. Commun. 239(1–3), 137–145 (2004).
[Crossref]

S. K. Sim, H. C. Lim, L. W. Lee, L. C. Chia, R. F. Wu, I. Cristiani, M. Rini, and V. Degiorgio, “High-power cascaded Raman fibre laser using phosphosilicate fibre,” Electron. Lett. 40(12), 738 (2004).
[Crossref]

G. Ravet, A. A. Fotiadi, M. Blondel, and P. Mégret, “Passive Q-switching in all-fibre Raman laser with distributed Rayleigh feedback,” Electron. Lett. 40(9), 528–529 (2004).
[Crossref]

2003 (1)

2000 (1)

M. Prabhu, N. S. Kim, L. Jianren, and K.-i. Ueda, “Output Characteristics of High-Power Continuous Wave Raman Fiber Laser at 1484 nm Using Phosphosilicate Fiber,” Opt. Rev. 7(5), 455–461 (2000).
[Crossref]

Abidin, N. H. Z.

N. H. Z. Abidin, M. H. Abu Bakar, N. Tamchek, F. R. Mahamd Adikan, and M. A. Mahdi, “Reflectivity variation in asymmetric random distributed feedback Raman fiber laser,” Laser Phys. 26(1), 015105 (2016).
[Crossref]

Abu Bakar, M. H.

N. H. Z. Abidin, M. H. Abu Bakar, N. Tamchek, F. R. Mahamd Adikan, and M. A. Mahdi, “Reflectivity variation in asymmetric random distributed feedback Raman fiber laser,” Laser Phys. 26(1), 015105 (2016).
[Crossref]

A. R. Sarmani, M. H. Abu Bakar, A. A. A. Bakar, F. R. M. Adikan, and M. A. Mahdi, “Spectral variations of the output spectrum in a random distributed feedback Raman fiber laser,” Opt. Express 19(15), 14152–14159 (2011).
[Crossref]

Adikan, F. R. M.

Ania-Castañón, J. D.

D. V. Churkin, A. E. El-Taher, I. D. Vatnik, J. D. Ania-Castañón, P. Harper, E. V. Podivilov, S. A. Babin, and S. K. Turitsyn, “Experimental and theoretical study of longitudinal power distribution in a random DFB fiber laser,” Opt. Express 20(10), 11178–11188 (2012).
[Crossref]

S. K. Turitsyn, S. A. Babin, A. E. El-Taher, P. Harper, D. V. Churkin, S. I. Kablukov, J. D. Ania-Castañón, V. Karalekas, and E. V. Podivilov, “Random distributed feedback fibre laser,” Nat. Photonics 4(4), 231–235 (2010).
[Crossref]

Aparanji, S.

Arun, S.

Babin, S. A.

D. S. Kharenko, V. D. Efremov, E. A. Evmenova, and S. A. Babin, “Generation of Raman dissipative solitons near 1.3 microns in a phosphosilicate-fiber cavity,” Opt. Express 26(12), 15084–15089 (2018).
[Crossref]

I. A. Lobach, S. I. Kablukov, and S. A. Babin, “Linearly polarized cascaded Raman fiber laser with random distributed feedback operating beyond 1.5 µm,” Opt. Lett. 42(18), 3526–3529 (2017).
[Crossref]

I. D. Vatnik, E. A. Zlobina, S. I. Kablukov, and S. A. Babin, “Multi-peak structure of generation spectrum of random distributed feedback fiber Raman lasers,” Opt. Express 25(3), 2703–2708 (2017).
[Crossref]

E. A. Zlobina, S. I. Kablukov, and S. A. Babin, “Linearly polarized random fiber laser with ultimate efficiency,” Opt. Lett. 40(17), 4074–4077 (2015).
[Crossref]

S. A. Babin, I. D. Vatnik, A. Y. Laptev, M. M. Bubnov, and E. M. Dianov, “High-efficiency cascaded Raman fiber laser with random distributed feedback,” Opt. Express 22(21), 24929–24934 (2014).
[Crossref]

D. V. Churkin, A. E. El-Taher, I. D. Vatnik, J. D. Ania-Castañón, P. Harper, E. V. Podivilov, S. A. Babin, and S. K. Turitsyn, “Experimental and theoretical study of longitudinal power distribution in a random DFB fiber laser,” Opt. Express 20(10), 11178–11188 (2012).
[Crossref]

S. K. Turitsyn, S. A. Babin, A. E. El-Taher, P. Harper, D. V. Churkin, S. I. Kablukov, J. D. Ania-Castañón, V. Karalekas, and E. V. Podivilov, “Random distributed feedback fibre laser,” Nat. Photonics 4(4), 231–235 (2010).
[Crossref]

S. A. Babin, D. V. Churkin, A. E. Ismagulov, S. I. Kablukov, and E. V. Podivilov, “Four-wave-mixing-induced turbulent spectral broadening in a long Raman fiber laser,” J. Opt. Soc. Am. B 24(8), 1729–1738 (2007).
[Crossref]

Bakar, A. A. A.

Balaswamy, V.

Blondel, M.

G. Ravet, A. A. Fotiadi, M. Blondel, and P. Mégret, “Passive Q-switching in all-fibre Raman laser with distributed Rayleigh feedback,” Electron. Lett. 40(9), 528–529 (2004).
[Crossref]

Bubnov, M. M.

Cao, X. L.

B. C. Yao, Y. J. Rao, Z. N. Wang, Y. Wu, J. H. Zhou, H. Wu, M. Q. Fan, X. L. Cao, W. L. Zhang, Y. F. Chen, Y. R. Li, D. Churkin, S. Turitsyn, and C. W. Wong, “Graphene based widely-tunable and singly-polarized pulse generation with random fiber lasers,” Sci. Rep. 5(1), 18526 (2016).
[Crossref]

Chen, J.

J. Xu, J. Ye, P. Zhou, J. Leng, H. Xiao, H. Zhang, J. Wu, and J. Chen, “Tandem pumping architecture enabled high power random fiber laser with near-diffraction-limited beam quality,” Sci. China: Technol. Sci. 62(1), 80–86 (2019).
[Crossref]

J. Xu, P. Zhou, W. Liu, J. Leng, H. Xiao, P. Ma, J. Wu, H. Zhang, J. Chen, and Z. Liu, “Exploration in Performance Scaling and New Application Avenues of Superfluorescent Fiber Source,” IEEE J. Sel. Top. Quantum Electron. 24(3), 1–10 (2018).
[Crossref]

Chen, Y. F.

B. C. Yao, Y. J. Rao, Z. N. Wang, Y. Wu, J. H. Zhou, H. Wu, M. Q. Fan, X. L. Cao, W. L. Zhang, Y. F. Chen, Y. R. Li, D. Churkin, S. Turitsyn, and C. W. Wong, “Graphene based widely-tunable and singly-polarized pulse generation with random fiber lasers,” Sci. Rep. 5(1), 18526 (2016).
[Crossref]

Chia, L. C.

S. K. Sim, H. C. Lim, L. W. Lee, L. C. Chia, R. F. Wu, I. Cristiani, M. Rini, and V. Degiorgio, “High-power cascaded Raman fibre laser using phosphosilicate fibre,” Electron. Lett. 40(12), 738 (2004).
[Crossref]

Choudhury, V.

Churkin, D.

B. C. Yao, Y. J. Rao, Z. N. Wang, Y. Wu, J. H. Zhou, H. Wu, M. Q. Fan, X. L. Cao, W. L. Zhang, Y. F. Chen, Y. R. Li, D. Churkin, S. Turitsyn, and C. W. Wong, “Graphene based widely-tunable and singly-polarized pulse generation with random fiber lasers,” Sci. Rep. 5(1), 18526 (2016).
[Crossref]

Churkin, D. V.

Cristiani, I.

S. K. Sim, H. C. Lim, L. W. Lee, L. C. Chia, R. F. Wu, I. Cristiani, M. Rini, and V. Degiorgio, “High-power cascaded Raman fibre laser using phosphosilicate fibre,” Electron. Lett. 40(12), 738 (2004).
[Crossref]

Cui, S.

J. Dong, L. Zhang, H. Jiang, X. Yang, W. Pan, S. Cui, X. Gu, and Y. Feng, “High order cascaded Raman random fiber laser with high spectral purity,” Opt. Express 26(5), 5275–5280 (2018).
[Crossref]

W. Pan, L. Zhang, H. Jiang, X. Yang, S. Cui, and Y. Feng, “Ultrafast Raman fiber Laser with Random Distributed Feedback,” Laser Photonics Rev. 12(4), 1700326 (2018).
[Crossref]

Degiorgio, V.

S. K. Sim, H. C. Lim, L. W. Lee, L. C. Chia, R. F. Wu, I. Cristiani, M. Rini, and V. Degiorgio, “High-power cascaded Raman fibre laser using phosphosilicate fibre,” Electron. Lett. 40(12), 738 (2004).
[Crossref]

Dianov, E. M.

Dong, J.

Du, X.

X. Du, H. Zhang, X. Wang, P. Zhou, and Z. Liu, “Investigation on random distributed feedback Raman fiber laser with linear polarized output,” Photonics Res. 3(2), 28–31 (2015).
[Crossref]

Efremov, V. D.

El-Taher, A. E.

D. V. Churkin, A. E. El-Taher, I. D. Vatnik, J. D. Ania-Castañón, P. Harper, E. V. Podivilov, S. A. Babin, and S. K. Turitsyn, “Experimental and theoretical study of longitudinal power distribution in a random DFB fiber laser,” Opt. Express 20(10), 11178–11188 (2012).
[Crossref]

S. K. Turitsyn, S. A. Babin, A. E. El-Taher, P. Harper, D. V. Churkin, S. I. Kablukov, J. D. Ania-Castañón, V. Karalekas, and E. V. Podivilov, “Random distributed feedback fibre laser,” Nat. Photonics 4(4), 231–235 (2010).
[Crossref]

Evmenova, E. A.

Fan, M.

Fan, M. Q.

B. C. Yao, Y. J. Rao, Z. N. Wang, Y. Wu, J. H. Zhou, H. Wu, M. Q. Fan, X. L. Cao, W. L. Zhang, Y. F. Chen, Y. R. Li, D. Churkin, S. Turitsyn, and C. W. Wong, “Graphene based widely-tunable and singly-polarized pulse generation with random fiber lasers,” Sci. Rep. 5(1), 18526 (2016).
[Crossref]

Feng, Y.

Fotiadi, A. A.

G. Ravet, A. A. Fotiadi, M. Blondel, and P. Mégret, “Passive Q-switching in all-fibre Raman laser with distributed Rayleigh feedback,” Electron. Lett. 40(9), 528–529 (2004).
[Crossref]

Gu, X.

Harper, P.

D. V. Churkin, A. E. El-Taher, I. D. Vatnik, J. D. Ania-Castañón, P. Harper, E. V. Podivilov, S. A. Babin, and S. K. Turitsyn, “Experimental and theoretical study of longitudinal power distribution in a random DFB fiber laser,” Opt. Express 20(10), 11178–11188 (2012).
[Crossref]

S. K. Turitsyn, S. A. Babin, A. E. El-Taher, P. Harper, D. V. Churkin, S. I. Kablukov, J. D. Ania-Castañón, V. Karalekas, and E. V. Podivilov, “Random distributed feedback fibre laser,” Nat. Photonics 4(4), 231–235 (2010).
[Crossref]

Huang, D. X.

Z. Xiong, N. Moore, Z. G. Li, G. C. Lim, D. M. Liu, and D. X. Huang, “Experimental optimization of high power Raman fiber lasers at 1495 nm using phosphosilicate fibers,” Opt. Commun. 239(1–3), 137–145 (2004).
[Crossref]

Huang, L.

H. Zhang, L. Huang, J. Song, H. Wu, P. Zhou, X. Wang, J. Wu, J. Xu, Z. Wang, X. Xu, and Y. Rao, “Quasi-kilowatt random fiber laser,” Opt. Lett. 44(11), 2613–2616 (2019).
[Crossref]

L. Huang, J. Xu, J. Ye, X. Liu, H. Zhang, X. Wang, and P. Zhou, “Power Scaling of Linearly Polarized Random Fiber Laser,” IEEE J. Sel. Top. Quantum Electron. 24(3), 1–8 (2018).
[Crossref]

Ismagulov, A. E.

Jiang, H.

W. Pan, L. Zhang, H. Jiang, X. Yang, S. Cui, and Y. Feng, “Ultrafast Raman fiber Laser with Random Distributed Feedback,” Laser Photonics Rev. 12(4), 1700326 (2018).
[Crossref]

J. Dong, L. Zhang, H. Jiang, X. Yang, W. Pan, S. Cui, X. Gu, and Y. Feng, “High order cascaded Raman random fiber laser with high spectral purity,” Opt. Express 26(5), 5275–5280 (2018).
[Crossref]

Jianren, L.

M. Prabhu, N. S. Kim, L. Jianren, and K.-i. Ueda, “Output Characteristics of High-Power Continuous Wave Raman Fiber Laser at 1484 nm Using Phosphosilicate Fiber,” Opt. Rev. 7(5), 455–461 (2000).
[Crossref]

Jin, X.

Kablukov, S. I.

Karalekas, V.

S. K. Turitsyn, S. A. Babin, A. E. El-Taher, P. Harper, D. V. Churkin, S. I. Kablukov, J. D. Ania-Castañón, V. Karalekas, and E. V. Podivilov, “Random distributed feedback fibre laser,” Nat. Photonics 4(4), 231–235 (2010).
[Crossref]

Kharenko, D. S.

Kim, N. S.

M. Prabhu, N. S. Kim, L. Jianren, and K.-i. Ueda, “Output Characteristics of High-Power Continuous Wave Raman Fiber Laser at 1484 nm Using Phosphosilicate Fiber,” Opt. Rev. 7(5), 455–461 (2000).
[Crossref]

Laptev, A. Y.

Lee, L. W.

S. K. Sim, H. C. Lim, L. W. Lee, L. C. Chia, R. F. Wu, I. Cristiani, M. Rini, and V. Degiorgio, “High-power cascaded Raman fibre laser using phosphosilicate fibre,” Electron. Lett. 40(12), 738 (2004).
[Crossref]

Leng, J.

J. Xu, J. Ye, P. Zhou, J. Leng, H. Xiao, H. Zhang, J. Wu, and J. Chen, “Tandem pumping architecture enabled high power random fiber laser with near-diffraction-limited beam quality,” Sci. China: Technol. Sci. 62(1), 80–86 (2019).
[Crossref]

H. Wu, J. Song, J. Ye, J. Xu, H. Zhang, J. Leng, and P. Zhou, “Hundred-watt-level linearly polarized tunable Raman random fiber laser,” Chin. Opt. Lett. 16(6), 061402 (2018).
[Crossref]

J. Xu, P. Zhou, W. Liu, J. Leng, H. Xiao, P. Ma, J. Wu, H. Zhang, J. Chen, and Z. Liu, “Exploration in Performance Scaling and New Application Avenues of Superfluorescent Fiber Source,” IEEE J. Sel. Top. Quantum Electron. 24(3), 1–10 (2018).
[Crossref]

J. Xu, Z. Lou, J. Ye, J. Wu, J. Leng, H. Xiao, H. Zhang, and P. Zhou, “Incoherently pumped high-power linearly-polarized single-mode random fiber laser: experimental investigations and theoretical prospects,” Opt. Express 25(5), 5609–5617 (2017).
[Crossref]

Li, X.

Li, Y. R.

B. C. Yao, Y. J. Rao, Z. N. Wang, Y. Wu, J. H. Zhou, H. Wu, M. Q. Fan, X. L. Cao, W. L. Zhang, Y. F. Chen, Y. R. Li, D. Churkin, S. Turitsyn, and C. W. Wong, “Graphene based widely-tunable and singly-polarized pulse generation with random fiber lasers,” Sci. Rep. 5(1), 18526 (2016).
[Crossref]

Li, Z. G.

Z. Xiong, N. Moore, Z. G. Li, G. C. Lim, D. M. Liu, and D. X. Huang, “Experimental optimization of high power Raman fiber lasers at 1495 nm using phosphosilicate fibers,” Opt. Commun. 239(1–3), 137–145 (2004).
[Crossref]

Z. Xiong, N. Moore, Z. G. Li, and G. C. Lim, “10-W raman fiber lasers at 1248 nm using phosphosilicate fibers,” J. Lightwave Technol. 21(10), 2377–2381 (2003).
[Crossref]

Lim, G. C.

Z. Xiong, N. Moore, Z. G. Li, G. C. Lim, D. M. Liu, and D. X. Huang, “Experimental optimization of high power Raman fiber lasers at 1495 nm using phosphosilicate fibers,” Opt. Commun. 239(1–3), 137–145 (2004).
[Crossref]

Z. Xiong, N. Moore, Z. G. Li, and G. C. Lim, “10-W raman fiber lasers at 1248 nm using phosphosilicate fibers,” J. Lightwave Technol. 21(10), 2377–2381 (2003).
[Crossref]

Lim, H. C.

S. K. Sim, H. C. Lim, L. W. Lee, L. C. Chia, R. F. Wu, I. Cristiani, M. Rini, and V. Degiorgio, “High-power cascaded Raman fibre laser using phosphosilicate fibre,” Electron. Lett. 40(12), 738 (2004).
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Liu, D. M.

Z. Xiong, N. Moore, Z. G. Li, G. C. Lim, D. M. Liu, and D. X. Huang, “Experimental optimization of high power Raman fiber lasers at 1495 nm using phosphosilicate fibers,” Opt. Commun. 239(1–3), 137–145 (2004).
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Liu, W.

J. Xu, P. Zhou, W. Liu, J. Leng, H. Xiao, P. Ma, J. Wu, H. Zhang, J. Chen, and Z. Liu, “Exploration in Performance Scaling and New Application Avenues of Superfluorescent Fiber Source,” IEEE J. Sel. Top. Quantum Electron. 24(3), 1–10 (2018).
[Crossref]

Liu, X.

L. Huang, J. Xu, J. Ye, X. Liu, H. Zhang, X. Wang, and P. Zhou, “Power Scaling of Linearly Polarized Random Fiber Laser,” IEEE J. Sel. Top. Quantum Electron. 24(3), 1–8 (2018).
[Crossref]

Liu, Z.

J. Xu, P. Zhou, W. Liu, J. Leng, H. Xiao, P. Ma, J. Wu, H. Zhang, J. Chen, and Z. Liu, “Exploration in Performance Scaling and New Application Avenues of Superfluorescent Fiber Source,” IEEE J. Sel. Top. Quantum Electron. 24(3), 1–10 (2018).
[Crossref]

X. Jin, Z. Lou, H. Zhang, J. Xu, P. Zhou, and Z. Liu, “Random distributed feedback fiber laser at 2.1 µm,” Opt. Lett. 41(21), 4923–4926 (2016).
[Crossref]

X. Du, H. Zhang, X. Wang, P. Zhou, and Z. Liu, “Investigation on random distributed feedback Raman fiber laser with linear polarized output,” Photonics Res. 3(2), 28–31 (2015).
[Crossref]

Lobach, I. A.

Lou, Z.

Ma, P.

J. Xu, P. Zhou, W. Liu, J. Leng, H. Xiao, P. Ma, J. Wu, H. Zhang, J. Chen, and Z. Liu, “Exploration in Performance Scaling and New Application Avenues of Superfluorescent Fiber Source,” IEEE J. Sel. Top. Quantum Electron. 24(3), 1–10 (2018).
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Mahamd Adikan, F. R.

N. H. Z. Abidin, M. H. Abu Bakar, N. Tamchek, F. R. Mahamd Adikan, and M. A. Mahdi, “Reflectivity variation in asymmetric random distributed feedback Raman fiber laser,” Laser Phys. 26(1), 015105 (2016).
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Mahdi, M. A.

N. H. Z. Abidin, M. H. Abu Bakar, N. Tamchek, F. R. Mahamd Adikan, and M. A. Mahdi, “Reflectivity variation in asymmetric random distributed feedback Raman fiber laser,” Laser Phys. 26(1), 015105 (2016).
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A. R. Sarmani, M. H. Abu Bakar, A. A. A. Bakar, F. R. M. Adikan, and M. A. Mahdi, “Spectral variations of the output spectrum in a random distributed feedback Raman fiber laser,” Opt. Express 19(15), 14152–14159 (2011).
[Crossref]

Mégret, P.

G. Ravet, A. A. Fotiadi, M. Blondel, and P. Mégret, “Passive Q-switching in all-fibre Raman laser with distributed Rayleigh feedback,” Electron. Lett. 40(9), 528–529 (2004).
[Crossref]

Moore, N.

Z. Xiong, N. Moore, Z. G. Li, G. C. Lim, D. M. Liu, and D. X. Huang, “Experimental optimization of high power Raman fiber lasers at 1495 nm using phosphosilicate fibers,” Opt. Commun. 239(1–3), 137–145 (2004).
[Crossref]

Z. Xiong, N. Moore, Z. G. Li, and G. C. Lim, “10-W raman fiber lasers at 1248 nm using phosphosilicate fibers,” J. Lightwave Technol. 21(10), 2377–2381 (2003).
[Crossref]

Nicholson, J. W.

Pan, W.

Podivilov, E. V.

Prabhu, M.

M. Prabhu, N. S. Kim, L. Jianren, and K.-i. Ueda, “Output Characteristics of High-Power Continuous Wave Raman Fiber Laser at 1484 nm Using Phosphosilicate Fiber,” Opt. Rev. 7(5), 455–461 (2000).
[Crossref]

Ramachandran, S.

Rao, Y.

Rao, Y. J.

B. C. Yao, Y. J. Rao, Z. N. Wang, Y. Wu, J. H. Zhou, H. Wu, M. Q. Fan, X. L. Cao, W. L. Zhang, Y. F. Chen, Y. R. Li, D. Churkin, S. Turitsyn, and C. W. Wong, “Graphene based widely-tunable and singly-polarized pulse generation with random fiber lasers,” Sci. Rep. 5(1), 18526 (2016).
[Crossref]

Ravet, G.

G. Ravet, A. A. Fotiadi, M. Blondel, and P. Mégret, “Passive Q-switching in all-fibre Raman laser with distributed Rayleigh feedback,” Electron. Lett. 40(9), 528–529 (2004).
[Crossref]

Rini, M.

S. K. Sim, H. C. Lim, L. W. Lee, L. C. Chia, R. F. Wu, I. Cristiani, M. Rini, and V. Degiorgio, “High-power cascaded Raman fibre laser using phosphosilicate fibre,” Electron. Lett. 40(12), 738 (2004).
[Crossref]

Sarmani, A. R.

Shu, X.

Sim, S. K.

S. K. Sim, H. C. Lim, L. W. Lee, L. C. Chia, R. F. Wu, I. Cristiani, M. Rini, and V. Degiorgio, “High-power cascaded Raman fibre laser using phosphosilicate fibre,” Electron. Lett. 40(12), 738 (2004).
[Crossref]

Song, J.

Sugavanam, S.

Supradeepa, V. R.

Tamchek, N.

N. H. Z. Abidin, M. H. Abu Bakar, N. Tamchek, F. R. Mahamd Adikan, and M. A. Mahdi, “Reflectivity variation in asymmetric random distributed feedback Raman fiber laser,” Laser Phys. 26(1), 015105 (2016).
[Crossref]

Tarasov, N.

Turitsyn, S.

B. C. Yao, Y. J. Rao, Z. N. Wang, Y. Wu, J. H. Zhou, H. Wu, M. Q. Fan, X. L. Cao, W. L. Zhang, Y. F. Chen, Y. R. Li, D. Churkin, S. Turitsyn, and C. W. Wong, “Graphene based widely-tunable and singly-polarized pulse generation with random fiber lasers,” Sci. Rep. 5(1), 18526 (2016).
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Turitsyn, S. K.

D. V. Churkin, A. E. El-Taher, I. D. Vatnik, J. D. Ania-Castañón, P. Harper, E. V. Podivilov, S. A. Babin, and S. K. Turitsyn, “Experimental and theoretical study of longitudinal power distribution in a random DFB fiber laser,” Opt. Express 20(10), 11178–11188 (2012).
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S. K. Turitsyn, S. A. Babin, A. E. El-Taher, P. Harper, D. V. Churkin, S. I. Kablukov, J. D. Ania-Castañón, V. Karalekas, and E. V. Podivilov, “Random distributed feedback fibre laser,” Nat. Photonics 4(4), 231–235 (2010).
[Crossref]

Ueda, K.-i.

M. Prabhu, N. S. Kim, L. Jianren, and K.-i. Ueda, “Output Characteristics of High-Power Continuous Wave Raman Fiber Laser at 1484 nm Using Phosphosilicate Fiber,” Opt. Rev. 7(5), 455–461 (2000).
[Crossref]

Vatnik, I. D.

Wang, P.

Wang, X.

H. Zhang, L. Huang, J. Song, H. Wu, P. Zhou, X. Wang, J. Wu, J. Xu, Z. Wang, X. Xu, and Y. Rao, “Quasi-kilowatt random fiber laser,” Opt. Lett. 44(11), 2613–2616 (2019).
[Crossref]

L. Huang, J. Xu, J. Ye, X. Liu, H. Zhang, X. Wang, and P. Zhou, “Power Scaling of Linearly Polarized Random Fiber Laser,” IEEE J. Sel. Top. Quantum Electron. 24(3), 1–8 (2018).
[Crossref]

X. Du, H. Zhang, X. Wang, P. Zhou, and Z. Liu, “Investigation on random distributed feedback Raman fiber laser with linear polarized output,” Photonics Res. 3(2), 28–31 (2015).
[Crossref]

Wang, Z.

Wang, Z. N.

B. C. Yao, Y. J. Rao, Z. N. Wang, Y. Wu, J. H. Zhou, H. Wu, M. Q. Fan, X. L. Cao, W. L. Zhang, Y. F. Chen, Y. R. Li, D. Churkin, S. Turitsyn, and C. W. Wong, “Graphene based widely-tunable and singly-polarized pulse generation with random fiber lasers,” Sci. Rep. 5(1), 18526 (2016).
[Crossref]

Wong, C. W.

B. C. Yao, Y. J. Rao, Z. N. Wang, Y. Wu, J. H. Zhou, H. Wu, M. Q. Fan, X. L. Cao, W. L. Zhang, Y. F. Chen, Y. R. Li, D. Churkin, S. Turitsyn, and C. W. Wong, “Graphene based widely-tunable and singly-polarized pulse generation with random fiber lasers,” Sci. Rep. 5(1), 18526 (2016).
[Crossref]

Wu, H.

H. Zhang, L. Huang, J. Song, H. Wu, P. Zhou, X. Wang, J. Wu, J. Xu, Z. Wang, X. Xu, and Y. Rao, “Quasi-kilowatt random fiber laser,” Opt. Lett. 44(11), 2613–2616 (2019).
[Crossref]

J. Song, H. Wu, J. Ye, J. Xu, H. Zhang, and P. Zhou, “High Power Linearly Polarized Raman Fiber Laser With Stable Temporal Output,” Photonic Sens. 9(1), 43–48 (2019).
[Crossref]

J. Ye, J. Xu, J. Song, H. Wu, H. Zhang, J. Wu, and P. Zhou, “Spectrum-agile hundred-watt-level high-power random fiber laser enabled by watt-level tunable optical filter,” Appl. Phys. Express 11(6), 062704 (2018).
[Crossref]

H. Wu, J. Song, J. Ye, J. Xu, H. Zhang, J. Leng, and P. Zhou, “Hundred-watt-level linearly polarized tunable Raman random fiber laser,” Chin. Opt. Lett. 16(6), 061402 (2018).
[Crossref]

H. Wu, P. Wang, J. Song, J. Ye, J. Xu, X. Li, and P. Zhou, “High power tunable mid-infrared optical parametric oscillator enabled by random fiber laser,” Opt. Express 26(5), 6446–6455 (2018).
[Crossref]

B. C. Yao, Y. J. Rao, Z. N. Wang, Y. Wu, J. H. Zhou, H. Wu, M. Q. Fan, X. L. Cao, W. L. Zhang, Y. F. Chen, Y. R. Li, D. Churkin, S. Turitsyn, and C. W. Wong, “Graphene based widely-tunable and singly-polarized pulse generation with random fiber lasers,” Sci. Rep. 5(1), 18526 (2016).
[Crossref]

H. Wu, Z. Wang, M. Fan, L. Zhang, W. Zhang, and Y. Rao, “Role of the mirror's reflectivity in forward-pumped random fiber laser,” Opt. Express 23(2), 1421–1427 (2015).
[Crossref]

Wu, J.

J. Xu, J. Ye, P. Zhou, J. Leng, H. Xiao, H. Zhang, J. Wu, and J. Chen, “Tandem pumping architecture enabled high power random fiber laser with near-diffraction-limited beam quality,” Sci. China: Technol. Sci. 62(1), 80–86 (2019).
[Crossref]

H. Zhang, L. Huang, J. Song, H. Wu, P. Zhou, X. Wang, J. Wu, J. Xu, Z. Wang, X. Xu, and Y. Rao, “Quasi-kilowatt random fiber laser,” Opt. Lett. 44(11), 2613–2616 (2019).
[Crossref]

J. Ye, J. Xu, J. Song, H. Wu, H. Zhang, J. Wu, and P. Zhou, “Spectrum-agile hundred-watt-level high-power random fiber laser enabled by watt-level tunable optical filter,” Appl. Phys. Express 11(6), 062704 (2018).
[Crossref]

J. Xu, P. Zhou, W. Liu, J. Leng, H. Xiao, P. Ma, J. Wu, H. Zhang, J. Chen, and Z. Liu, “Exploration in Performance Scaling and New Application Avenues of Superfluorescent Fiber Source,” IEEE J. Sel. Top. Quantum Electron. 24(3), 1–10 (2018).
[Crossref]

J. Xu, Z. Lou, J. Ye, J. Wu, J. Leng, H. Xiao, H. Zhang, and P. Zhou, “Incoherently pumped high-power linearly-polarized single-mode random fiber laser: experimental investigations and theoretical prospects,” Opt. Express 25(5), 5609–5617 (2017).
[Crossref]

Wu, R. F.

S. K. Sim, H. C. Lim, L. W. Lee, L. C. Chia, R. F. Wu, I. Cristiani, M. Rini, and V. Degiorgio, “High-power cascaded Raman fibre laser using phosphosilicate fibre,” Electron. Lett. 40(12), 738 (2004).
[Crossref]

Wu, Y.

B. C. Yao, Y. J. Rao, Z. N. Wang, Y. Wu, J. H. Zhou, H. Wu, M. Q. Fan, X. L. Cao, W. L. Zhang, Y. F. Chen, Y. R. Li, D. Churkin, S. Turitsyn, and C. W. Wong, “Graphene based widely-tunable and singly-polarized pulse generation with random fiber lasers,” Sci. Rep. 5(1), 18526 (2016).
[Crossref]

Xiao, H.

J. Xu, J. Ye, P. Zhou, J. Leng, H. Xiao, H. Zhang, J. Wu, and J. Chen, “Tandem pumping architecture enabled high power random fiber laser with near-diffraction-limited beam quality,” Sci. China: Technol. Sci. 62(1), 80–86 (2019).
[Crossref]

J. Xu, P. Zhou, W. Liu, J. Leng, H. Xiao, P. Ma, J. Wu, H. Zhang, J. Chen, and Z. Liu, “Exploration in Performance Scaling and New Application Avenues of Superfluorescent Fiber Source,” IEEE J. Sel. Top. Quantum Electron. 24(3), 1–10 (2018).
[Crossref]

J. Xu, Z. Lou, J. Ye, J. Wu, J. Leng, H. Xiao, H. Zhang, and P. Zhou, “Incoherently pumped high-power linearly-polarized single-mode random fiber laser: experimental investigations and theoretical prospects,” Opt. Express 25(5), 5609–5617 (2017).
[Crossref]

Xiong, Z.

Z. Xiong, N. Moore, Z. G. Li, G. C. Lim, D. M. Liu, and D. X. Huang, “Experimental optimization of high power Raman fiber lasers at 1495 nm using phosphosilicate fibers,” Opt. Commun. 239(1–3), 137–145 (2004).
[Crossref]

Z. Xiong, N. Moore, Z. G. Li, and G. C. Lim, “10-W raman fiber lasers at 1248 nm using phosphosilicate fibers,” J. Lightwave Technol. 21(10), 2377–2381 (2003).
[Crossref]

Xu, J.

J. Xu, J. Ye, P. Zhou, J. Leng, H. Xiao, H. Zhang, J. Wu, and J. Chen, “Tandem pumping architecture enabled high power random fiber laser with near-diffraction-limited beam quality,” Sci. China: Technol. Sci. 62(1), 80–86 (2019).
[Crossref]

H. Zhang, L. Huang, J. Song, H. Wu, P. Zhou, X. Wang, J. Wu, J. Xu, Z. Wang, X. Xu, and Y. Rao, “Quasi-kilowatt random fiber laser,” Opt. Lett. 44(11), 2613–2616 (2019).
[Crossref]

J. Song, H. Wu, J. Ye, J. Xu, H. Zhang, and P. Zhou, “High Power Linearly Polarized Raman Fiber Laser With Stable Temporal Output,” Photonic Sens. 9(1), 43–48 (2019).
[Crossref]

J. Xu, P. Zhou, W. Liu, J. Leng, H. Xiao, P. Ma, J. Wu, H. Zhang, J. Chen, and Z. Liu, “Exploration in Performance Scaling and New Application Avenues of Superfluorescent Fiber Source,” IEEE J. Sel. Top. Quantum Electron. 24(3), 1–10 (2018).
[Crossref]

J. Ye, J. Xu, J. Song, H. Wu, H. Zhang, J. Wu, and P. Zhou, “Spectrum-agile hundred-watt-level high-power random fiber laser enabled by watt-level tunable optical filter,” Appl. Phys. Express 11(6), 062704 (2018).
[Crossref]

H. Wu, J. Song, J. Ye, J. Xu, H. Zhang, J. Leng, and P. Zhou, “Hundred-watt-level linearly polarized tunable Raman random fiber laser,” Chin. Opt. Lett. 16(6), 061402 (2018).
[Crossref]

H. Wu, P. Wang, J. Song, J. Ye, J. Xu, X. Li, and P. Zhou, “High power tunable mid-infrared optical parametric oscillator enabled by random fiber laser,” Opt. Express 26(5), 6446–6455 (2018).
[Crossref]

L. Huang, J. Xu, J. Ye, X. Liu, H. Zhang, X. Wang, and P. Zhou, “Power Scaling of Linearly Polarized Random Fiber Laser,” IEEE J. Sel. Top. Quantum Electron. 24(3), 1–8 (2018).
[Crossref]

J. Xu, Z. Lou, J. Ye, J. Wu, J. Leng, H. Xiao, H. Zhang, and P. Zhou, “Incoherently pumped high-power linearly-polarized single-mode random fiber laser: experimental investigations and theoretical prospects,” Opt. Express 25(5), 5609–5617 (2017).
[Crossref]

X. Jin, Z. Lou, H. Zhang, J. Xu, P. Zhou, and Z. Liu, “Random distributed feedback fiber laser at 2.1 µm,” Opt. Lett. 41(21), 4923–4926 (2016).
[Crossref]

Xu, X.

Yang, X.

J. Dong, L. Zhang, H. Jiang, X. Yang, W. Pan, S. Cui, X. Gu, and Y. Feng, “High order cascaded Raman random fiber laser with high spectral purity,” Opt. Express 26(5), 5275–5280 (2018).
[Crossref]

W. Pan, L. Zhang, H. Jiang, X. Yang, S. Cui, and Y. Feng, “Ultrafast Raman fiber Laser with Random Distributed Feedback,” Laser Photonics Rev. 12(4), 1700326 (2018).
[Crossref]

Yao, B. C.

B. C. Yao, Y. J. Rao, Z. N. Wang, Y. Wu, J. H. Zhou, H. Wu, M. Q. Fan, X. L. Cao, W. L. Zhang, Y. F. Chen, Y. R. Li, D. Churkin, S. Turitsyn, and C. W. Wong, “Graphene based widely-tunable and singly-polarized pulse generation with random fiber lasers,” Sci. Rep. 5(1), 18526 (2016).
[Crossref]

Ye, J.

J. Xu, J. Ye, P. Zhou, J. Leng, H. Xiao, H. Zhang, J. Wu, and J. Chen, “Tandem pumping architecture enabled high power random fiber laser with near-diffraction-limited beam quality,” Sci. China: Technol. Sci. 62(1), 80–86 (2019).
[Crossref]

J. Song, H. Wu, J. Ye, J. Xu, H. Zhang, and P. Zhou, “High Power Linearly Polarized Raman Fiber Laser With Stable Temporal Output,” Photonic Sens. 9(1), 43–48 (2019).
[Crossref]

J. Ye, J. Xu, J. Song, H. Wu, H. Zhang, J. Wu, and P. Zhou, “Spectrum-agile hundred-watt-level high-power random fiber laser enabled by watt-level tunable optical filter,” Appl. Phys. Express 11(6), 062704 (2018).
[Crossref]

H. Wu, J. Song, J. Ye, J. Xu, H. Zhang, J. Leng, and P. Zhou, “Hundred-watt-level linearly polarized tunable Raman random fiber laser,” Chin. Opt. Lett. 16(6), 061402 (2018).
[Crossref]

L. Huang, J. Xu, J. Ye, X. Liu, H. Zhang, X. Wang, and P. Zhou, “Power Scaling of Linearly Polarized Random Fiber Laser,” IEEE J. Sel. Top. Quantum Electron. 24(3), 1–8 (2018).
[Crossref]

H. Wu, P. Wang, J. Song, J. Ye, J. Xu, X. Li, and P. Zhou, “High power tunable mid-infrared optical parametric oscillator enabled by random fiber laser,” Opt. Express 26(5), 6446–6455 (2018).
[Crossref]

J. Xu, Z. Lou, J. Ye, J. Wu, J. Leng, H. Xiao, H. Zhang, and P. Zhou, “Incoherently pumped high-power linearly-polarized single-mode random fiber laser: experimental investigations and theoretical prospects,” Opt. Express 25(5), 5609–5617 (2017).
[Crossref]

Zhang, H.

J. Song, H. Wu, J. Ye, J. Xu, H. Zhang, and P. Zhou, “High Power Linearly Polarized Raman Fiber Laser With Stable Temporal Output,” Photonic Sens. 9(1), 43–48 (2019).
[Crossref]

J. Xu, J. Ye, P. Zhou, J. Leng, H. Xiao, H. Zhang, J. Wu, and J. Chen, “Tandem pumping architecture enabled high power random fiber laser with near-diffraction-limited beam quality,” Sci. China: Technol. Sci. 62(1), 80–86 (2019).
[Crossref]

H. Zhang, L. Huang, J. Song, H. Wu, P. Zhou, X. Wang, J. Wu, J. Xu, Z. Wang, X. Xu, and Y. Rao, “Quasi-kilowatt random fiber laser,” Opt. Lett. 44(11), 2613–2616 (2019).
[Crossref]

J. Ye, J. Xu, J. Song, H. Wu, H. Zhang, J. Wu, and P. Zhou, “Spectrum-agile hundred-watt-level high-power random fiber laser enabled by watt-level tunable optical filter,” Appl. Phys. Express 11(6), 062704 (2018).
[Crossref]

H. Wu, J. Song, J. Ye, J. Xu, H. Zhang, J. Leng, and P. Zhou, “Hundred-watt-level linearly polarized tunable Raman random fiber laser,” Chin. Opt. Lett. 16(6), 061402 (2018).
[Crossref]

L. Huang, J. Xu, J. Ye, X. Liu, H. Zhang, X. Wang, and P. Zhou, “Power Scaling of Linearly Polarized Random Fiber Laser,” IEEE J. Sel. Top. Quantum Electron. 24(3), 1–8 (2018).
[Crossref]

J. Xu, P. Zhou, W. Liu, J. Leng, H. Xiao, P. Ma, J. Wu, H. Zhang, J. Chen, and Z. Liu, “Exploration in Performance Scaling and New Application Avenues of Superfluorescent Fiber Source,” IEEE J. Sel. Top. Quantum Electron. 24(3), 1–10 (2018).
[Crossref]

J. Xu, Z. Lou, J. Ye, J. Wu, J. Leng, H. Xiao, H. Zhang, and P. Zhou, “Incoherently pumped high-power linearly-polarized single-mode random fiber laser: experimental investigations and theoretical prospects,” Opt. Express 25(5), 5609–5617 (2017).
[Crossref]

X. Jin, Z. Lou, H. Zhang, J. Xu, P. Zhou, and Z. Liu, “Random distributed feedback fiber laser at 2.1 µm,” Opt. Lett. 41(21), 4923–4926 (2016).
[Crossref]

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Zhang, L.

Zhang, W.

Zhang, W. L.

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[Crossref]

Zhou, J.

Zhou, J. H.

B. C. Yao, Y. J. Rao, Z. N. Wang, Y. Wu, J. H. Zhou, H. Wu, M. Q. Fan, X. L. Cao, W. L. Zhang, Y. F. Chen, Y. R. Li, D. Churkin, S. Turitsyn, and C. W. Wong, “Graphene based widely-tunable and singly-polarized pulse generation with random fiber lasers,” Sci. Rep. 5(1), 18526 (2016).
[Crossref]

Zhou, P.

J. Xu, J. Ye, P. Zhou, J. Leng, H. Xiao, H. Zhang, J. Wu, and J. Chen, “Tandem pumping architecture enabled high power random fiber laser with near-diffraction-limited beam quality,” Sci. China: Technol. Sci. 62(1), 80–86 (2019).
[Crossref]

H. Zhang, L. Huang, J. Song, H. Wu, P. Zhou, X. Wang, J. Wu, J. Xu, Z. Wang, X. Xu, and Y. Rao, “Quasi-kilowatt random fiber laser,” Opt. Lett. 44(11), 2613–2616 (2019).
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J. Song, H. Wu, J. Ye, J. Xu, H. Zhang, and P. Zhou, “High Power Linearly Polarized Raman Fiber Laser With Stable Temporal Output,” Photonic Sens. 9(1), 43–48 (2019).
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J. Xu, P. Zhou, W. Liu, J. Leng, H. Xiao, P. Ma, J. Wu, H. Zhang, J. Chen, and Z. Liu, “Exploration in Performance Scaling and New Application Avenues of Superfluorescent Fiber Source,” IEEE J. Sel. Top. Quantum Electron. 24(3), 1–10 (2018).
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X. Jin, Z. Lou, H. Zhang, J. Xu, P. Zhou, and Z. Liu, “Random distributed feedback fiber laser at 2.1 µm,” Opt. Lett. 41(21), 4923–4926 (2016).
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X. Du, H. Zhang, X. Wang, P. Zhou, and Z. Liu, “Investigation on random distributed feedback Raman fiber laser with linear polarized output,” Photonics Res. 3(2), 28–31 (2015).
[Crossref]

Zlobina, E. A.

Appl. Phys. Express (1)

J. Ye, J. Xu, J. Song, H. Wu, H. Zhang, J. Wu, and P. Zhou, “Spectrum-agile hundred-watt-level high-power random fiber laser enabled by watt-level tunable optical filter,” Appl. Phys. Express 11(6), 062704 (2018).
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J. Xu, P. Zhou, W. Liu, J. Leng, H. Xiao, P. Ma, J. Wu, H. Zhang, J. Chen, and Z. Liu, “Exploration in Performance Scaling and New Application Avenues of Superfluorescent Fiber Source,” IEEE J. Sel. Top. Quantum Electron. 24(3), 1–10 (2018).
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J. Song, H. Wu, J. Ye, J. Xu, H. Zhang, and P. Zhou, “High Power Linearly Polarized Raman Fiber Laser With Stable Temporal Output,” Photonic Sens. 9(1), 43–48 (2019).
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X. Du, H. Zhang, X. Wang, P. Zhou, and Z. Liu, “Investigation on random distributed feedback Raman fiber laser with linear polarized output,” Photonics Res. 3(2), 28–31 (2015).
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J. Xu, J. Ye, P. Zhou, J. Leng, H. Xiao, H. Zhang, J. Wu, and J. Chen, “Tandem pumping architecture enabled high power random fiber laser with near-diffraction-limited beam quality,” Sci. China: Technol. Sci. 62(1), 80–86 (2019).
[Crossref]

Sci. Rep. (1)

B. C. Yao, Y. J. Rao, Z. N. Wang, Y. Wu, J. H. Zhou, H. Wu, M. Q. Fan, X. L. Cao, W. L. Zhang, Y. F. Chen, Y. R. Li, D. Churkin, S. Turitsyn, and C. W. Wong, “Graphene based widely-tunable and singly-polarized pulse generation with random fiber lasers,” Sci. Rep. 5(1), 18526 (2016).
[Crossref]

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Figures (7)

Fig. 1.
Fig. 1. The schematic diagram of the experimental setup (ASE: amplified spontaneous emission, HR: high reflectivity, FBG: fiber Bragg grating, VOA: variable optical attenuator, WDM: wavelength division multiplexer, PF: phosphosilicate fiber).
Fig. 2.
Fig. 2. The spectrum of the ASE pump source.
Fig. 3.
Fig. 3. The transmission spectra of (a) VOA1 and (b) VOA2 as a function of the rotation angle of the knob, insets: the single pass attenuation values of the VOA1 and VOA2.
Fig. 4.
Fig. 4. The transmission spectra of the three-wavelength WDM from the common port to the (a) 1070 nm-port, (b) 1120 nm-port, (c) 1237 nm-port.
Fig. 5.
Fig. 5. The process of (a) spectral evolution and (b) power evolution as a function of pump power in random fiber laser without tuning the VOAs.
Fig. 6.
Fig. 6. (a) The spectral evolution and (b) the power curve of the output laser (inset in Fig. 6(a): the detailed spectra of silica-related first order Stokes light).
Fig. 7.
Fig. 7. (a) The spectral evolution and (b) the variation of the output power of silica-related and phosphorus-related Stokes light as a function of the rotation angle of the knob on the VOA1. (inset in Fig. 7(b): the proportion of silica-related first order Stokes light).

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