3.38 kW all-fiberized narrow linewidth fiber laser based on active polarization control using RMS-Prop algorithm

•Root-Mean-Square propagation (RMS-prop) algorithm is developed and first employed in polarization control technique.•Experimental research is conducted for polarization control of non-PM narrow linewidth fiber laser with high output power.•As far as we know, this is the first time to realize over 3...

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Published inOptics and laser technology Vol. 166; p. 109634
Main Authors Ren, Shuai, Chang, Hongxiang, Ma, Pengfei, Chen, Yisha, Wang, Guangjian, Li, Wei, Liu, Wei, Yao, Tianfu, zhou, Pu
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.11.2023
Subjects
High power fiber laser
Narrow linewidth
Polarization control
RMS-prop algorithm
Narrow linewidth
RMS-prop algorithm
Polarization control
High power fiber laser
Online AccessGet full text
ISSN0030-3992
1879-2545
DOI10.1016/j.optlastec.2023.109634

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Abstract •Root-Mean-Square propagation (RMS-prop) algorithm is developed and first employed in polarization control technique.•Experimental research is conducted for polarization control of non-PM narrow linewidth fiber laser with high output power.•As far as we know, this is the first time to realize over 3 kW linearly polarized fiber laser based on polarization control. Active polarization control in high power narrow linewidth non-polarization maintained (non-PM) fiber amplifier is investigated in this paper. The non-PM fiber laser is realized employing bidirectional pump configuration seeded with narrow linewidth laser source. Root-Mean-Square propagation (RMS-prop) algorithm is developed and first employed in polarization control technique. When control system does not work, the polarization extinction ratio (PER) of output signal laser varies between 0.25 dB and 4.61 dB. When control system works, the PER stably remains above 12.2 dB during power amplification. At laser power of 3.38 kW, the PER is 12.2 dB, 3 dB linewidth is measured to be ∼0.32 nm, and beam quality (M2 factor) is M2x = 1.39, M2y = 1.50. This is the first time to realize over 3 kW linearly polarized fiber laser based on active polarization control to the best of our knowledge.
AbstractList •Root-Mean-Square propagation (RMS-prop) algorithm is developed and first employed in polarization control technique.•Experimental research is conducted for polarization control of non-PM narrow linewidth fiber laser with high output power.•As far as we know, this is the first time to realize over 3 kW linearly polarized fiber laser based on polarization control. Active polarization control in high power narrow linewidth non-polarization maintained (non-PM) fiber amplifier is investigated in this paper. The non-PM fiber laser is realized employing bidirectional pump configuration seeded with narrow linewidth laser source. Root-Mean-Square propagation (RMS-prop) algorithm is developed and first employed in polarization control technique. When control system does not work, the polarization extinction ratio (PER) of output signal laser varies between 0.25 dB and 4.61 dB. When control system works, the PER stably remains above 12.2 dB during power amplification. At laser power of 3.38 kW, the PER is 12.2 dB, 3 dB linewidth is measured to be ∼0.32 nm, and beam quality (M2 factor) is M2x = 1.39, M2y = 1.50. This is the first time to realize over 3 kW linearly polarized fiber laser based on active polarization control to the best of our knowledge.
ArticleNumber 109634
Author Wang, Guangjian
Ma, Pengfei
Liu, Wei
Yao, Tianfu
Li, Wei
Chang, Hongxiang
zhou, Pu
Chen, Yisha
Ren, Shuai
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Keywords Narrow linewidth
RMS-prop algorithm
Polarization control
High power fiber laser
Language English
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Snippet •Root-Mean-Square propagation (RMS-prop) algorithm is developed and first employed in polarization control technique.•Experimental research is conducted for...
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StartPage 109634
SubjectTerms High power fiber laser
Narrow linewidth
Polarization control
RMS-prop algorithm
Title 3.38 kW all-fiberized narrow linewidth fiber laser based on active polarization control using RMS-Prop algorithm
URI https://dx.doi.org/10.1016/j.optlastec.2023.109634
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