Investigation and modelling of pump saturation effect on thermal load of Yb:YAG thin disk pumped at various wavelengths

机译：泵浦饱和度对不同波长抽运的Yb：YAG薄盘热负荷影响的研究与建模

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Relations among absorption of pump beam, quantum defect and thermal load were investigated for pump wavelengths of 968 nm and near 940 nm in two independent, real-time measurement experiments complemented with thermal distribution simulation. Saturation of absorption at 969 nm pumping for non-lasing operational regime, which affects temperature rise and exists independently of the thin disk type, disk head construction, pump power and pump beam diameter is reported. Disk temperature dependence of absorption, quantum defect and disk geometry and large difference between absorption, disk temperature and o-o efficiency at both pump wavelengths are discussed.

机译：在两个独立的实时测量实验以及热分布模拟的辅助下，研究了968 nm和940 nm附近的泵浦波长的泵浦光束吸收，量子缺陷和热负荷之间的关系。对于非激光操作状态，在969 nm泵浦下的吸收饱和会影响温度上升，并且与薄盘类型，盘头结构，泵浦功率和泵浦光束直径无关地存在。讨论了磁盘温度对吸收率，量子缺陷和磁盘几何形状的依赖性以及两个泵浦波长下的吸收率，磁盘温度和o-o效率之间的较大差异。

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来源
《High-power, high-energy, and high-intensity laser technology III》|2017年|102380P.1-102380P.7|共7页
会议地点 Prague(CZ)
作者
P. Severova; M. Chyla; J.Muzik; M. Smrz; T. Miura; M. Kawasaki; T. Higashiguchi; A. Endo; T. Mocek;
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作者单位

HiLASE Centre Institute of Physics ASCR, Czech Republic,Czech Technical University of Prague;

HiLASE Centre Institute of Physics ASCR, Czech Republic;

HiLASE Centre Institute of Physics ASCR, Czech Republic,Czech Technical University of Prague;

HiLASE Centre Institute of Physics ASCR, Czech Republic;

HiLASE Centre Institute of Physics ASCR, Czech Republic;

Utsunomiya University, Japan;

Utsunomiya University, Japan;

HiLASE Centre Institute of Physics ASCR, Czech Republic;

HiLASE Centre Institute of Physics ASCR, Czech Republic;

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会议组织
原文格式 PDF
正文语种 eng
中图分类
关键词
thin disk laser; Yb:YAG; thermal load; pump saturation; thermal modelling; zero-phonon line pumping;

机译：薄盘激光器Yb：YAG;热负荷；泵饱和度热建模；零声子线抽运;

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专利

1. Numerical analysis of an end-pumped Yb:YAG thin disk laser with variation of a fractional thermal load [J] . Guangzhi Zhu, Xiao Zhu, Yan Huang, Applied optics . 2014,第19期

机译：随温度变化的端泵浦Yb：YAG薄盘激光器的数值分析
2. Investigation on Back-Reflected Pumping Light in High-Power Quasi-End-Pumped Yb:YAG Thin-Disk Lasers [J] . Radmard S., Arabgari S., Shayganmanesh M., Quantum Electronics, IEEE Journal of . 2012,第9期

机译：大功率准端抽运Yb：YAG薄盘激光器中的背反射泵浦光的研究
3. Theoretical modelling and experimental investigations of the diode-pumped thin-disk Yb: YAG laser [J] . K Contag, M Karszewski, C Stewen, Quantum electronics . 1999,第8期

机译：二极管泵浦薄盘Yb：YAG激光器的理论建模和实验研究
4. Investigation and modelling of pump saturation effect on thermal load of Yb:YAG thin disk pumped at various wavelengths [C] . P. Severova, M. Chyla, J.Muzik, Conference on high-power, high-energy, and high-intensity laser technology III . 2017

机译：泵饱和效应对Yb热负荷的调查与建模：泵送各种波长的YAG薄盘
5. Analytic and numeric modeling of diode laser pumped YB:YAG laser oscillators and amplifiers. [D] . Shu, Hong. 2003

机译：二极管激光泵浦YB：YAG激光振荡器和放大器的解析模型和数值模型。
6. 20 mJ 1 ps Yb:YAG Thin-disk Regenerative Amplifier [O] . Ayman Alismail, Haochuan Wang, Jonathan Brons, 2017

机译：20 mJ1 ps Yb：YAG薄盘再生放大器
7. Investigations on ring-shaped pumping distributions for the generation of beams with radial polarization in an Yb:YAG thin-disk laser [O] . Tom Dietrich, Martin Rumpel, Thomas Graf, 2015

机译：在YB中的径向偏振中产生梁的环形泵送分布的研究：YAG薄盘激光器
8. High-average-power diode-pumped Yb: YAG lasers [R] . Avizonis, P. V., Beach, R., Bibeau, C. M., 1999

机译：高平均功率二极管泵浦Yb：YaG激光器

Investigation and modelling of pump saturation effect on thermal load of Yb:YAG thin disk pumped at various wavelengths

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