1178 nm all Yb-fiber laser source power-scaled by solid-core photonic bandgap fiber for 589nm generation

机译：1178 nm所有YB光纤激光源通过固体光子带隙纤维缩小589nm

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Here we report an 1178 nm all Yb-fiber laser source power-scaled by solid-core photonic bandgap fiber (SC-PBGF) for 589 nm generation. A 1.4 W output at 589 nm with an input power of 9 W at 1178 nm were obtained. One important advantage of PBGF is distributed filtering. Hence the gain spectrum can be designed artificially in an active-ion-doped SC-PBGF, desirable for long-wavelength Yb fiber laser operation. At first, 1178 nm amplification seeded with a non-polarized and linearly-polarized FRL was carried out with the core launched powers of 4 W and 2 W, respectively. As a result, an output power of 30 W at 1178 nm with was obtained with the slope efficiency of 58% and ASE free. A 25 W linearly-polarized output with 13 dB PER also was obtained. Next, the seed source was exchanged to an all-fiber linearly-polarized Yb fiber laser, which emits as high as a 3 W output power with a 40 pm bandwidth by cross splicing birefringence FBGs method.

机译：在这里，我们通过固体光子光子带隙纤维（SC-PBGF）报告1178 nm所有YB-Fiber激光源功率为589 nm。获得1.4W输出在589nm以1178nm的输入功率为9w。 PBGF的一个重要优势是分布式滤波。因此，增益光谱可以在活性离子掺杂的SC-PBGF中人为设计，希望用于长波长YB光纤激光器操作。首先，使用非极化和线性偏振FR1种植1178nm扩增，其核心发射的4W和2W的核心。结果，通过坡度效率为58％和ASE，获得1178nm的30W的输出功率。获得了25个线性极化输出，也获得了13dB。接下来，将种子源交换为全纤维线性极化的YB光纤激光器，其通过横切双折射FBGS方法与<40μm带宽一起发射高达3W输出功率。

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《Conference on Lasers and Electro-Optics Europe》|2009年||共1页
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中图分类 TN2-53;
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Bragg gratings; Raman lasers; birefringence; fibre lasers; laser beams; optical fibre polarisation; optical materials; photonic band gap; ytterbium; Yb; active-ion-doped SC-PBGF; distributed filtering; fiber laser source; fibre Bragg grating; fibre Raman laser; linearly-polarized FRL; power 1.4 W; power 2 W; power 25 W; power 30 W; power 4 W; power 9 W; solid-core photonic bandgap fiber; splicing birefringence FBG method; wavelength 1178 nm; wavelength 589 nm;

机译：布拉格光栅;raman激光;双折射;光纤激光;激光束;光纤极化;光学材料;光子带隙;ytterbium;yb;yb;yb;yb;yb;yb;yb;yb;yb;yb;yb;yb;yb;yb;yb;yb;yb;yb;yb;yb;yb;yb;yb;yb;yb;yb;yb;yb;yb;yb;yb;yb;yb;yb;yb;yb;yb;yb;yb;yb;yb;yb;yb;yb;yb;yb;yb;）过滤;光纤激光源;光纤布拉格光栅;光纤拉曼激光;线性偏振FRL;POWER 1.4 W;POWER 25 W;POWER 30 W;POWER 4 W;POWER 9 W;固体光子光子带隙纤维;拼接双折射FBG方法;波长1178 nm;波长589 nm;

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专利

1. A 98 W 1178 nm Yb-doped solid-core photonic bandgap fiber oscillator [J] . Xinyan Fan, Mingchen Chen, Akira Shirakawa, Laser physics letters . 2013,第10期

机译：掺98 W 1178 nm掺Yb的实芯光子带隙光纤振荡器
2. Solid-Core Photonic Bandgap Fibers for High-Power Fiber Lasers [J] . Dianov E. M., Likhachev M. E., F??vrier S. IEEE journal of selected topics in quantum electronics . 2009,第1期

机译：用于高功率光纤激光器的实芯光子带隙光纤
3. Effective area limit of large-mode-area solid-core photonic bandgap fibers for fiber laser applications [J] . Kunimasa Saitoh, Tadashi Murao, Lorenzo Rosa, Optical fiber technology . 2010,第6期

机译：光纤激光器应用的大模面积实芯光子带隙光纤的有效面积限制
4. 1178 nm all Yb-fiber laser source power-scaled by solid-core photonic bandgap fiber for 589nm generation [C] . Conference on Lasers and Electro-Optics Europe . 2009

机译：1178 nm所有YB光纤激光源通过固体光子带隙纤维缩小589nm
5. Laser-driven air-core photonic-bandgap fiber optic gyroscope. [D] . Dangui, Vinayak. 2008

机译：激光驱动的空心光子带隙光纤陀螺仪。
6. Development of Dispersion-Optimized Photonic Crystal Fibers Based on Heavy Metal Oxide Glasses for Broadband Infrared Supercontinuum Generation with Fiber Lasers [O] . Grzegorz Stępniewski, Jacek Pniewski, Dariusz Pysz, 2018

机译：基于重金属氧化物玻璃的色散优化光子晶体光纤的开发用于光纤激光器产生宽带红外超连续谱
7. 1178 nm all Yb-fiber laser source power-scaled by solid-core photonic bandgap fiber for 589nm generation [O] . Maruyama H., Shirakawa A., Ueda K.I., 2009

机译：所有Yb光纤激光源均为1178 nm，由固体光子带隙光纤进行功率调整，适用于589nm
8. Solid-Core Photonic Bandgap Fibers for Cladding-Pumped Raman Amplification [R] . Ward, B. 2011

机译：用于包层泵浦拉曼放大的固体光子带隙光纤

1178 nm all Yb-fiber laser source power-scaled by solid-core photonic bandgap fiber for 589nm generation

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