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Self-Steepening of Prechirped Amplified and Compressed 29-fs Fiber Laser Pulse in Large-Mode-Area Erbium-Doped Fiber Amplifier

机译：大模面积掺b光纤放大器中chi线性放大和压缩的29 fs光纤激光脉冲的自增强

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[[abstract]]Prechirped amplification, soliton compression, and self-pulse-steepening of a 300-fs stretch-pulse mode-locked erbium-doped fiber laser (EDFL) pulse in an ultrashort length large-mode-area erbium-doped fiber amplifier (LMA-EDFA) and large-effect-area fiber (LEAF) link are investigated. In situ amplified compression of the single-mode-fiber prechirped EDFL pulse (broadened to 1.2 ps) is initiated in the LMA-EDFA at a pumping power of > 160 mW, which provides a 20-fold pulsewidth-compressing ratio for the incoming EDFL pulse and supports a maximum output power of > 20 dBm. With an extremely short LEAF-based fifth-order soliton stage, the amplified EDFL pulse can further be compressed down to a pulsewidth of 29 fs, which gives rise to a total pulsewidth-compressing ratio of as high as 40. The LMA-EDFA-based prechirped and amplified soliton compression leaves a small pedestal on the EDFL pulse with an energy confinement ratio of 74%, providing a 20-dB magnified pulse energy of 2.3 nj and a 10-dB spectral linewidth of 150 nm The self-steepening-induced blue-side spectral stretch by 1.3 THz is elucidated.

机译：[[摘要]]在超短长度大面积掺光纤中对300 fs拉伸脉冲锁模掺laser光纤激光器（EDFL）脉冲进行amplification的放大，孤子压缩和自脉冲加陡研究了放大器（LMA-EDFA）和大面积光纤（LEAF）链路。在LMA-EDFA中以大于160 mW的泵浦功率对单模光纤预线性EDFL脉冲进行原位放大压缩（扩展至1.2 ps），这为进入的EDFL提供了20倍的脉冲宽度压缩比脉冲并支持大于20 dBm的最大输出功率。使用基于LEAF的非常短的五阶孤子级，可以将放大的EDFL脉冲进一步压缩至29 fs的脉冲宽度，从而使总脉冲宽度压缩比高达40。LMA-EDFA-基于预chi和放大的孤子压缩，在EDFL脉冲上留下一个小的基座，能量限制率为74％，提供20 dB的放大脉冲能量2.3 nj和10 dB的光谱线宽150 nm。阐明了1.3太赫兹的蓝边频谱拉伸。

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Gong-Ru Lin;
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年度 2014
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1. Self-Steepening of Prechirped Amplified and Compressed 29-fs Fiber Laser Pulse in Large-Mode-Area Erbium-Doped Fiber Amplifier [J] . Lin G.-L., Pan C.-L., Lin Y.-T. Journal of Lightwave Technology . 2007,第11期

机译：大模面积掺b光纤放大器中chi线性放大和压缩的29 fs光纤激光脉冲的自增强
2. 158-mu J pulses from a single-transverse-mode, large-mode-area erbium-doped fiber amplifier [J] . Taverner D, Richardson DJ, Dong L, Optics Letters . 1997,第6期

机译：单横模大面积掺光纤放大器产生的158μJ脉冲
3. Modeling the saturation induced by broad-band pulses amplified in an erbium-doped fiber amplifier [J] . Horowitz M., Menyuk C.R. IEEE Photonics Technology Letters . 1999,第10期

机译：模拟由掺-光纤放大器中放大的宽带脉冲引起的饱和度
4. Microjoule supercontinuum generation by prechirped laser pulses in a large-mode-area photonic-crystal fiber [C] . Aleksandr V. Mitrofanov, Anatolii A. Ivanov, Aleksei A. Podshivalov, Quantum Electronics and Laser Science Conference . 2007

机译：Microjoule超连续由大型区域光子晶体纤维中的Prechirded激光脉冲产生
5. Generation and amplification of ultrashort pulses in erbium-doped optical fibers. [D] . Stock, Michelle Lynn. 1994

机译：掺光纤中超短脉冲的产生和放大。
6. Optimizing pulse compressibility in completely all-fibered Ytterbium chirped pulse amplifiers for in vivo two photon laser scanning microscopy [O] . A. Fernández, L. Grüner-Nielsen, M. Andreana, 2017

机译：在用于全体内两光子激光扫描显微镜的完全全光纤Y脉冲放大器中优化脉冲可压缩性
7. Multi-kilowatt, all-fiber integrated chirped-pulse amplification system yielding 40� pulse compression using air-core fiber and conventional erbium-doped fiber amplifier [O] . C. J. S. de Matos, J. R. Taylor 2004

机译：多千瓦，全光纤集成啁啾脉冲放大系统，采用空心纤维和常规铒掺杂光纤放大器屈服40㎡脉冲压缩
8. Femtosecond Fiber Laser Pulses Amplified by a KCl:Tl+ Color-Center Amplifier forContinuum Generation in the 1.5-micrometers Region [R] . Lenz, G., Gellermann, W., Dougherty, D. J., 1996

机译：由KCl：Tl +色心放大器放大的飞秒光纤激光脉冲，用于1.5微米区域的连续光源生成

Self-Steepening of Prechirped Amplified and Compressed 29-fs Fiber Laser Pulse in Large-Mode-Area Erbium-Doped Fiber Amplifier

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