Switchable in-phase and out-phase polarization rotation vector solitons in a birefringence-managed fiber laser

•Out-phase and in-phase polarization rotation vector solitons coexist in a mode-locked fiber laser.•Switching between two types of solitons can be accomplished via birefringence management method.•Real-time spectral evolutions clearly reveal the polarization dynamics.•This paper provides a potential...

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Published inOptics and laser technology Vol. 157; p. 108746
Main Authors Gao, Qun, Du, Yueqing, Zeng, Chao, Mao, Dong
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.01.2023
Subjects
Birefringence-managed fiber laser
Mode-locking fiber laser
Polarization rotation vector solitons
Spectral evolution dynamics
Polarization rotation vector solitons
Mode-locking fiber laser
Birefringence-managed fiber laser
Spectral evolution dynamics
Online AccessGet full text
ISSN0030-3992
1879-2545
DOI10.1016/j.optlastec.2022.108746

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Abstract •Out-phase and in-phase polarization rotation vector solitons coexist in a mode-locked fiber laser.•Switching between two types of solitons can be accomplished via birefringence management method.•Real-time spectral evolutions clearly reveal the polarization dynamics.•This paper provides a potential avenue to increase the communication capacity. Nonlinear polarization evolution of vector solitons is an interesting subject in nonlinear science and laser dynamics. Here, we demonstrate two types of switchable multiple polarization rotation vector solitons (PRVSs) in a mode-locked fiber laser through birefringence management. It is found that due to the polarization evolution induced gain competition and mode-coupling effect, the intensities of the two orthogonal polarization components of neighboring solitons differ in each round-trip, manifesting as the out-phase PRVSs. By adjusting the polarization orientation of injecting pulses with respect to the principal axis of polarization-maintaining fiber, neighboring solitons can project equal weight of intensity in two orthogonally-polarized directions, thus switching the out-phase PRVSs to the in-phase PRVSs. Real-time spectral measurement results validate the formation of two PRVSs, and reveal the distinct evolution dynamics. This work provides an effective method to control the polarization state of each soliton in multi-pulses mode-locked fiber lasers, and a potential avenue to introduce polarization-coding in optical soliton communications.
AbstractList •Out-phase and in-phase polarization rotation vector solitons coexist in a mode-locked fiber laser.•Switching between two types of solitons can be accomplished via birefringence management method.•Real-time spectral evolutions clearly reveal the polarization dynamics.•This paper provides a potential avenue to increase the communication capacity. Nonlinear polarization evolution of vector solitons is an interesting subject in nonlinear science and laser dynamics. Here, we demonstrate two types of switchable multiple polarization rotation vector solitons (PRVSs) in a mode-locked fiber laser through birefringence management. It is found that due to the polarization evolution induced gain competition and mode-coupling effect, the intensities of the two orthogonal polarization components of neighboring solitons differ in each round-trip, manifesting as the out-phase PRVSs. By adjusting the polarization orientation of injecting pulses with respect to the principal axis of polarization-maintaining fiber, neighboring solitons can project equal weight of intensity in two orthogonally-polarized directions, thus switching the out-phase PRVSs to the in-phase PRVSs. Real-time spectral measurement results validate the formation of two PRVSs, and reveal the distinct evolution dynamics. This work provides an effective method to control the polarization state of each soliton in multi-pulses mode-locked fiber lasers, and a potential avenue to introduce polarization-coding in optical soliton communications.
ArticleNumber 108746
Author Mao, Dong
Du, Yueqing
Gao, Qun
Zeng, Chao
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  fullname: Mao, Dong
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Keywords Polarization rotation vector solitons
Mode-locking fiber laser
Birefringence-managed fiber laser
Spectral evolution dynamics
Language English
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Snippet •Out-phase and in-phase polarization rotation vector solitons coexist in a mode-locked fiber laser.•Switching between two types of solitons can be accomplished...
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StartPage 108746
SubjectTerms Birefringence-managed fiber laser
Mode-locking fiber laser
Polarization rotation vector solitons
Spectral evolution dynamics
Title Switchable in-phase and out-phase polarization rotation vector solitons in a birefringence-managed fiber laser
URI https://dx.doi.org/10.1016/j.optlastec.2022.108746
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