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Literature DB >> 16315711

Evidence of thermal effects in a high-power Er3+-Yb3+ fiber laser.

Guillaume Canat¹, Jean-Claude Mollier, Yves Jaouën, Bernard Dussardier.

Abstract

We analyze the influence of heat generation caused by nonradiative transitions in a high-power 1.55 microm double-clad erbium-ytterbium fiber laser on the Stark level population. At strong pumping rates, 1 microm lasing can start as a result of parasitic reflections. We present a model that allows us to simulate the effect of self-generated heat on the Stark level population by using the MacCumber relation. Heat generation plays a significant role and improves the 1.5 microm laser's efficiency by increasing the 1 microm lasing threshold.

Entities: Chemical

Year: 2005 PMID： 16315711 DOI： 10.1364/ol.30.003030

Source DB: PubMed Journal: Opt Lett ISSN： 0146-9592 Impact factor: 3.776

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Cited

1 in total

1. Temperature Dependence of Absorption and Energy Transfer Efficiency of Er³⁺/Yb³⁺/P⁵⁺ Co-Doped Silica Fiber Core Glasses.

Authors: Yue Cheng; Hehe Dong; Chunlei Yu; Qiubai Yang; Yan Jiao; Shikai Wang; Chongyun Shao; Lili Hu; Ye Dai
Journal: Materials (Basel) Date: 2022-01-27 Impact factor: 3.623

1 in total

Evidence of thermal effects in a high-power Er3+-Yb3+ fiber laser.

1. Temperature Dependence of Absorption and Energy Transfer Efficiency of Er3+/Yb3+/P5+ Co-Doped Silica Fiber Core Glasses.

1. Temperature Dependence of Absorption and Energy Transfer Efficiency of Er³⁺/Yb³⁺/P⁵⁺ Co-Doped Silica Fiber Core Glasses.