Highly stable and self-started all-fiber Yb3+ doped fiber laser mode-locked by chirped pulse spectral filtering and nonlinear polarization evolution

Zhang Pan-Zheng; Wang Xiao-Chao; Li Jing-Hui; Feng Tao; Zhang Zhi-Xiang; Fan Wei; Zhou Shen-Lei; Ma Wei-Xin; Zhu Jian; Lin Zun-Qi

doi:10.7498/aps.65.214207

Abstract

Without discrete optical components influencing the fiber format, all-fiber mode-locked laser has tremendous potential practical applications due to its advantages of better stability, alignment free, and better compaction. All-fiber laser mode-locked by nonlinear polarization evolution（NPE) can obtain good performances in terms of pulse duration and spectrum. But the effective saturable absorption mirror can be overdriven at high peak power, which leads to multiple pulses, limiting the output pulse energy. And there is a trade-off between avoiding overdriving the NPE and ease of self-starting. In addition, the polarization of the pulse propagating in a long fiber is so sensitive to the environment vibration that it is difficult to implement a stable lone-time operation.All-fiber ring laser mode-locked by NPE alone is analyzed and realized. The simulation results show that even a polarization vibration of up/38 can break the mode-locking completely. Experimentally, after carefully adjusting, single-pulse mode-locking is achieved with the spectrum centered at 1053.4 nm and a maximum pulse energy of 82 pJ. But the output parameters change continually during operating. After 60 min, the mode-locking is broken. The conclusion is obtained that instability and unreliability of self-starting are inevitable for such a laser.Here, we show significant improvements of the pulse energy, operating stability, and self-starting reliability from an all-fiber Yb-doped mode-locked fiber laser. The laser is mode-locked by NPE combined with chirped pulse spectral filtering（CPSF). In order to easily self-start and stabilize mode locking, a spectral filter is employed in the all-normal group velocity dispersion NPE cavity to provide additional amplitude modulation. Combined effects of NPE and CPSF result in desirable pulse output, desirable operating stability, and reliable self-starting simultaneously. Stable mode-locking centered at 1053 nm is achieved with a 3 dB spectral bandwidth of 9.1 nm and pulse duration of 17.8 ps. The average output power is 66.9 mW at a repetition rate of 15.2 MHz, corresponding to a pulse energy of 4.25 nJ. Especially, high operating stability and easily one-button self-starting are achieved simultaneously. The fluctuations of output parameters including pulse energy, pulse duration, and spectrum are within 0.3% during 150-min operation. Self-starting reliability is tested. The testing time lasts two weeks. During the two weeks, the laser is turned off and turned on 48 times by using a power supplying button, without any adjustment. And the re-turned on intervals change randomly. Each time, the mode-locking can start itself. The repeatabilities of output parameters including pulse energy, pulse duration, and spectrum are within 0.55%.

Keywords:

Authors and contacts

1.
Key Laboratory of High Power Laser and Physics, CAS, Shanghai Institute of Optics and Fine Mechanics, Chinese Academy of Sciences, Shanghai 201800, China;
2.
Shanghai Institute of Laser Plasma, China Academy of Engineering Physics, Shanghai 201800, China

Corresponding author: Wang Xiao-Chao, smiles26@163.com

Funds: Project supported by the Youth Innovation Promotion Association CAS and the National Natural Science Foundation of China(Grant No. 61205103).

References

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[4]	Lin H H, Sui Z, Li M Z, Wang J J 2006 High Power Laser and Particle Beams 18 825(in Chinese)[林宏奂, 隋展, 李明中, 王建军2006强激光与粒子束18 825]
[5]	Gu Q Y, Hou J, Cheng X A, Xu X J 2008 Chin. J. Lasers 3 5(in Chinese)[谷庆元, 侯静, 程相爱, 许晓军2008中国激光3 5]
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[10]	Zhang P Z, Fan W, Wang X C, Lin Z Q 2010 Chin. Opt. Lett. 8 8
[11]	Zhang P Z, Fan W, Wang X C, Lin Z Q 2011 Acta Phys. Sin. 60 024206(in Chinese)[张攀政, 范薇, 汪小超, 林尊琪2011 60 024206]
[12]	Luo Z C, Xu W C, Song C X, Luo A P, Chen W C 2009 Chin. Phys. B 18 1674
[13]	Bale B G, Kutz J N, Chong A, Renninger W H, Wise F W 2008 J. Opt. Soc. Am. B 25 1763
[14]	Ilday F Ö, Buckley J R, Lim H, Wise F W, Clark W G 2003 Opt. Lett. 28 1365
[15]	Komarov A, Leblond H, Sanchez F 2005 Phys. Rev. A 71 053809
[16]	Chong A, Buckley J, Renninger W, Wise F 2006 Opt. Express 14 10095
[17]	Paschotta R, Nilsson J, Tropper A C, Hanna D C 1997 IEEE J. Quantum Elect. 33 1049
[18]	Buckley J, Chong A, Zhou S, Renninger W, Wise F W 2007 J. Opt. Soc. Am. B 24 1803
[19]	Agrawal G P(translated by Jia D F, Yu Z H, Tan B, Hu Z Y) 2002 Nonlinear Fiber Optics & Applications of Nonlinear Fiber Optics(Beijing:Publishing House of Electronics Industry) pp26-31, 64-71, 132-140(in Chinese)[Agrawal G P著(贾东方, 余震虹, 谈斌, 胡智勇译) 2002非线性光纤光学原理及应用(北京:电子工业出版社)第26–31, 64–71, 132–140页]
[20]	Wang Y H, Ma C S, Li D L, Zheng J 2008 Acta Opt. Sin. 37 855(in Chinese)[汪玉海, 马春生, 李德禄, 郑杰2008光学学报37 855]
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[22]	Ilday F Ö, Buckley J R, Clark W G, Wise F W 2004 Phys. Rev. Lett. 92 213902

Cited By

[1]	Dawson J W, Liao Z M, Jovanovic I, Wattellier B, Beach R, Payne S A, Barty C P J 2003 Proc. SPIE UCRL-JC-152561
[2]	Dawson J W, Liao Z M, Mitchell S, Messerly M, Beach R, Jovanovic I, Brown C, Payne S A, Barty C P J 2005 Proc. SPIE UCRL-CONF-209779
[3]	Yang L Z, Chen G F, Wang Y S, Zhao W, Ding G L, Xiong H J 2005 Chin. J. Lasers 32 153(in Chinese)[杨玲珍, 陈国夫, 王屹山, 赵卫, 丁广雷, 熊红军2005中国激光32 153]
[4]	Lin H H, Sui Z, Li M Z, Wang J J 2006 High Power Laser and Particle Beams 18 825(in Chinese)[林宏奂, 隋展, 李明中, 王建军2006强激光与粒子束18 825]
[5]	Gu Q Y, Hou J, Cheng X A, Xu X J 2008 Chin. J. Lasers 3 5(in Chinese)[谷庆元, 侯静, 程相爱, 许晓军2008中国激光3 5]
[6]	Zhang P Z, Fan W, Wang X C, Lin Z Q 2011 Chin. J. Lasers 8 3(in Chinese)[张攀政, 范薇, 汪小超, 林尊琪2011中国激光8 3]
[7]	Prochnow O, Ruehl A, Schultz M, Wandt D, Kracht D 2007 Opt. Express 15 6889
[8]	Kieu K, Wise F W 2008 Opt. Express 16 11453
[9]	Michael S, Heike K, Oliver P, Doeter W, Uwe M, Dietmar K 2008 Opt. Express 16 19562
[10]	Zhang P Z, Fan W, Wang X C, Lin Z Q 2010 Chin. Opt. Lett. 8 8
[11]	Zhang P Z, Fan W, Wang X C, Lin Z Q 2011 Acta Phys. Sin. 60 024206(in Chinese)[张攀政, 范薇, 汪小超, 林尊琪2011 60 024206]
[12]	Luo Z C, Xu W C, Song C X, Luo A P, Chen W C 2009 Chin. Phys. B 18 1674
[13]	Bale B G, Kutz J N, Chong A, Renninger W H, Wise F W 2008 J. Opt. Soc. Am. B 25 1763
[14]	Ilday F Ö, Buckley J R, Lim H, Wise F W, Clark W G 2003 Opt. Lett. 28 1365
[15]	Komarov A, Leblond H, Sanchez F 2005 Phys. Rev. A 71 053809
[16]	Chong A, Buckley J, Renninger W, Wise F 2006 Opt. Express 14 10095
[17]	Paschotta R, Nilsson J, Tropper A C, Hanna D C 1997 IEEE J. Quantum Elect. 33 1049
[18]	Buckley J, Chong A, Zhou S, Renninger W, Wise F W 2007 J. Opt. Soc. Am. B 24 1803
[19]	Agrawal G P(translated by Jia D F, Yu Z H, Tan B, Hu Z Y) 2002 Nonlinear Fiber Optics & Applications of Nonlinear Fiber Optics(Beijing:Publishing House of Electronics Industry) pp26-31, 64-71, 132-140(in Chinese)[Agrawal G P著(贾东方, 余震虹, 谈斌, 胡智勇译) 2002非线性光纤光学原理及应用(北京:电子工业出版社)第26–31, 64–71, 132–140页]
[20]	Wang Y H, Ma C S, Li D L, Zheng J 2008 Acta Opt. Sin. 37 855(in Chinese)[汪玉海, 马春生, 李德禄, 郑杰2008光学学报37 855]
[21]	Liu H G, Hu M L, Song Y J, Li Y F, Chai L, Wang C Y 2010 Chin. Phys. B 19 014215
[22]	Ilday F Ö, Buckley J R, Clark W G, Wise F W 2004 Phys. Rev. Lett. 92 213902

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Vol. 65, Issue 21 - 2016-11-05

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