材料科学
光学
光纤
兴奋剂
光电子学
硬包层石英光纤
折射率
光纤激光器
光子晶体光纤
芯(光纤)
石英纤维
纤维
包塑石英纤维
化学气相沉积
光散射
全内反射
衰减系数
全硅纤维
硅
反射率
相位匹配
拉曼散射
衍射
激光束
透射率
吸收(声学)
作者
Krzysztof Markowski,Piotr Miluski,Marcin Kochanowicz,Marek Lodzinski,Marta Kuwik,Wojciech Pisarski,Joanna Pisarska,Dominik Dorosz,Jan Dorosz
出处
期刊:Applied Optics
[Optica Publishing Group]
日期:2026-05-11
卷期号:65 (16): 5376-5376
摘要
Thulium-doped silica fibers are attractive candidates for light sources with emission in the 1.7–1.9 µm spectral range. Still, short-wavelength efficient generation is hindered by strong reabsorption associated with the quasi-three-level nature of Tm 3+ ions. In this work, numerical modeling is used to investigate how a ring-shaped radial distribution of Tm 3+ ions in the core can favor short-wavelength emission. The results show that, under cladding pumping, moving the doped region from the center toward the edge broadens the ASE spectrum, shifts its spectral centroid toward shorter wavelengths, and delays the onset of spectral narrowing associated with weak cavity feedback, while requiring a longer optimal fiber length and maintaining a high gain level. With increasing pump power, the ring-doped geometry preserves a broader short-wavelength ASE contribution than the centrally doped configuration, whereas the latter becomes spectrally narrowed much more rapidly. A double-clad Tm/Al/Ge-doped silica fiber was fabricated by modified chemical vapor deposition with chelate doping technology (MCVD-CDT), with a core/cladding diameter of 17/105 µm, and its performance was verified experimentally through luminescence measurements, broadband emission, and lasing near 1.8 µm.
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