能量转移在掺Dy3+光纤中的作用

IF 1.6 Q3 OPTICS OSA Continuum Pub Date : 2021-10-01 DOI:10.1364/osac.435526

S. Jackson, M. Majewski

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引用次数: 0

摘要

利用高功率准连续波脉冲泵浦，我们发现在高掺杂的Dy3+双包层ZBLAN光纤中，能量转移上转换(ETU)过程产生了一个抑制增益的显著激励损失的途径。对于掺4摩尔% Dy3+的光纤，我们确定了泵浦吸收在最大发射(峰值)泵浦功率为100 W时是不饱和的。我们提出，这是由一个合作的三离子ETU过程。此外，Tm3+、Dy3+共掺光纤的高功率脉冲抽运会在抽运脉冲后产生激光弛豫峰，表明ETU在抽运过程中主导所有其他过程。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Role of energy transfer in concentrated Dy3+-doped fibers

Using high power quasi-cw pulse pumping, we show that energy transfer upconversion (ETU) processes in highly doped Dy3+ double clad ZBLAN fibers creates a pathway for significant excitation loss that clamps the gain. For a 4 mol.% Dy3+-doped fiber, we establish that the pump absorption is non-saturable up to a maximum launched (peak) pump power of 100 W. We propose that this arises from a co-operative three-ion ETU process. Additionally, the high power pulsed pumping of Tm3+, Dy3+-co-doped fiber produces laser relaxation spikes that appear after the pump pulse, suggesting that ETU dominates all other process during pumping.

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来源期刊

OSA Continuum OPTICS-

自引率

0.00%

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审稿时长

12 weeks