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Phase-Separated Alumina–Silica Glass-Based Erbium-Doped Fibers for Optical Amplifier: Material and Optical Characterization along with Amplification Properties

机译：用于光学放大器的相分离的氧化铝 - 二氧化硅玻璃掺杂纤维：材料和光学表征以及扩增性能

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摘要

In this paper, we present phase-separated alumina–silica glass-based Er3+-doped optical fibers made by a modified chemical vapor deposition (MCVD) process in combination with a solution doping (SD) technique. The fibers exhibited better optical performance than other silica-based host glasses—both in terms of spectral broadening and flattening of the gain spectra in the C band (1530–1560 nm) region—as well as an improved lifetime. These phase-separated erbium-doped fibers (EDF) promoted longer Er–O bond lengths and also hexa- and penta-coordinated Al3+ ions instead of the fourfold coordination found in non-phase-separated EDF. It was observed that the higher coordination numbers of Er3+ and Al3+ ions in phase-separated glass hosts led to more homogeneous and inhomogeneous broadening, resulting in better flatness of the gain spectrum with 1.2 dB more gain compared to the non-phase-separated EDF.

机译：在本文中，我们将通过改性化学气相沉积（MCVD）工艺与溶液掺杂（SD）技术组合的改性化学气相沉积（MCVD）工艺存在相分离的氧化铝 - 二氧化硅玻璃基ER3 + - 掺杂光纤。在C波段（1530-1560nm）区域中的增益光谱的光谱展宽和平坦方面，该纤维表现出比其他基于二氧化硅的主体玻璃的光学性能更好。以及改进的寿命。这些相分离的铒掺杂纤维（EDF）促进了较长的ER-O键长，也升高了六升和戊二酮，而不是在非相分离的EDF中发现的四重配位。观察到，相位分离的玻璃宿主中的ER3 +和Al3 +离子的较高配位数导致更均匀的且不均匀的展大，导致与非相分离的EDF相比具有1.2dB的增益的增益光谱的更好平坦度。

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Mukul Paul; Alexander Kir’yanov; Yuri Barmenkov; Mrinmay Pal; Randall Youngman; Anirban Dhar; Shyamal Das;
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年度 2018
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原文格式 PDF
正文语种 eng
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入库时间 2022-08-20 22:08:37

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专利

1. Phase-Separated Alumina–Silica Glass-Based Erbium-Doped Fibers for Optical Amplifier: Material and Optical Characterization along with Amplification Properties [J] . Mukul Paul, Alexander Kir’yanov, Yuri Barmenkov, Fibers . 2018,第3期

机译：用于光放大器的相分离的氧化铝-二氧化硅玻璃基掺Er光纤：材料和光学特性以及放大性能
2. Luminescent Properties and Optical Amplification of Erbium-Doped Nano-Engineered Scandium-Phospho- Yttria-Alumina-Silica Glass Based Optical Fiber [J] . Pinninty Harshavardhan Reddy, Shyamal Das, Debjit Dutta, Physica status solidi . 2018,第7期

机译：掺b纳米工程Scan-磷-氧化钇-氧化铝-硅玻璃玻璃基光纤的发光性能和光学放大
3. Fabrication and characterization of chromium-doped nanophase separated yttria-alumina-silica glass-based optical fibers [J] . Debjit Dutta, Anirban Dhar, Alexander V. Kiryanov, Physica status solidi . 2015,第8期

机译：掺铬纳米相分离氧化钇-氧化铝-二氧化硅玻璃基光纤的制备与表征
4. Characterization of picosecond pulse amplification in an erbium-doped fiber amplifier using frequency-resolved optical gating [C] . L.P.Barry, J.M.Dudley, P.G.Bollond, Conference on optical fiber communications;OFC'97 . 1997

机译：使用频率分辨光学选通特性表征掺do光纤放大器中的皮秒脉冲放大
5. Development of "core-suction" technique for fabrication of highly doped fibers for optical amplification and characterization of optical fibers for Raman amplification. [D] . Goel, Nitin Kumar. 2005

机译：开发“芯吸”技术以制造用于光放大的高掺杂光纤以及表征用于拉曼放大的光纤。
6. Sensing Properties of Fused Silica Single-Mode Optical Fibers Based on PPP-BOTDA in High-Temperature Fields [O] . Jiahui Shen, Ting Li, Hong Zhu, 2019

机译：基于PPP-BOTDA的熔融石英单模光纤在高温领域的传感性能
7. High gain pulsed erbium-doped fiber amplifier for the nonlinear characterization of SWCNTs photodeposited on optical fibers [O] . Zaca-Morán P., Kuzin E., Torres-Turiján J., 2013

机译：高增益脉冲掺光纤放大器，用于非线性表征光沉积在光纤上的SWCNT

Phase-Separated Alumina–Silica Glass-Based Erbium-Doped Fibers for Optical Amplifier: Material and Optical Characterization along with Amplification Properties

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