Laser & Optoelectronics Progress, Volume. 59, Issue 15, 1516011(2022)
Research Progress on Ytterbium-Doped Silica Glass Fiber for High-Power Narrow-linewidth Fiber Lasers
Fig. 1. Influence of Al2O3 content in Al2O3 crystal derivative fiber [41]. (a) Speed of sound; (b) Brillouin linewidth; (c) absolute Brillouin gain coefficient; (d) relative Brillouin gain coefficient with SMF-28 fiber
Fig. 2. PD induced losses of Yb-doped fibers with different P/Al molar ratios [43]
Fig. 3. Al-P-B-Si quaternary glass fiber and commercial fiber. (a) BGS; (b) PD induced loss [55]
Fig. 4. Microstructured large mode field fiber. (a) Cross-sectional image of AS-PCF[59]; (b) cross-sectional image of AS-PBF[62]; (c) (d) cross-sectional images of improved AS-PBF and core area[67]; (e)-(g) schematic diagram, cross-sectional image, and side micrograph of 3C fiber with single core[74]
Fig. 5. Schematic diagrams of different types TDF. (a) Linear type; (b) linear type with smooth ends; (c) spindle type; (d) saddle type [80]
Fig. 7. Confined-doped fiber. (a) Designed schematic; (b) refractive index profiles of confined-doped fiber and conventional fiber; elemental distributions of (c) confined-doped fiber and (d) conventional fiber [32]
Fig. 8. Metal clad fiber. (a) Polymer clad; (b) metal clad [118]
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Qiubai Yang, Hui Shen, Lei Zhang, Qiurui Li, Chunlei Yu, Yunfeng Qi, Lili Hu. Research Progress on Ytterbium-Doped Silica Glass Fiber for High-Power Narrow-linewidth Fiber Lasers[J]. Laser & Optoelectronics Progress, 2022, 59(15): 1516011
Category: Materials
Received: Apr. 29, 2022
Accepted: Jun. 9, 2022
Published Online: Jul. 22, 2022
The Author Email: Yu Chunlei (sdycllcy@163.com), Qi Yunfeng (dreamer_7@siom.ac.cn)