Narrowband mode-locked fiber laser via spectral-domain intermodal interference

Qun Gao; Yueqing Du; Zhiwen He; Dong Mao; Jianlin Zhao

doi:10.1109/JLT.2021.3096132

Narrowband mode-locked fiber laser via spectral-domain intermodal interference

Qun Gao, Yueqing Du, Zhiwen He, Dong Mao, Jianlin Zhao

School of Physical Science and Technology

Northwestern Polytechnical University Xian

Research output: Contribution to journal › Article › peer-review

16 Scopus citations

Abstract

We demonstrate a hybrid-structure fiber laser composed of single-mode fiber (SMF) and four-mode fiber (FMF), capable of delivering stable near-chirp-free soliton with the bandwidth of 75 pm. Ascribed to the spectral-domain intermodal interference, the SMF-FMF cavity serves not only as a ring resonator but also as an intrinsic spectral filter. The wavelength of the narrowband soliton is tunable within 10 nm by a polarization controller. Simulation results validate the experimental observations, revealing that the filtering effect simultaneously balances the self-phase modulation induced spectral broadening and saturable absorption induced temporal compression. The narrowband fiber laser is attractive for spectroscopy, quantum optics, and material processing, and offers a promising platform to study the evolution dynamics of few-mode solitons.

Original language	English
Pages (from-to)	6276-6280
Number of pages	5
Journal	Journal of Lightwave Technology
Volume	39
Issue number	19
DOIs	https://doi.org/10.1109/JLT.2021.3096132
State	Published - 1 Oct 2021

Keywords

Intrinsic spectral filter
mode-locked fiber laser
narrowband soliton
spectral-domain intermodal interference

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10.1109/JLT.2021.3096132

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title = "Narrowband mode-locked fiber laser via spectral-domain intermodal interference",

abstract = "We demonstrate a hybrid-structure fiber laser composed of single-mode fiber (SMF) and four-mode fiber (FMF), capable of delivering stable near-chirp-free soliton with the bandwidth of 75 pm. Ascribed to the spectral-domain intermodal interference, the SMF-FMF cavity serves not only as a ring resonator but also as an intrinsic spectral filter. The wavelength of the narrowband soliton is tunable within 10 nm by a polarization controller. Simulation results validate the experimental observations, revealing that the filtering effect simultaneously balances the self-phase modulation induced spectral broadening and saturable absorption induced temporal compression. The narrowband fiber laser is attractive for spectroscopy, quantum optics, and material processing, and offers a promising platform to study the evolution dynamics of few-mode solitons.",

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author = "Qun Gao and Yueqing Du and Zhiwen He and Dong Mao and Jianlin Zhao",

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T1 - Narrowband mode-locked fiber laser via spectral-domain intermodal interference

AU - Gao, Qun

AU - Du, Yueqing

AU - He, Zhiwen

AU - Mao, Dong

AU - Zhao, Jianlin

PY - 2021/10/1

Y1 - 2021/10/1

N2 - We demonstrate a hybrid-structure fiber laser composed of single-mode fiber (SMF) and four-mode fiber (FMF), capable of delivering stable near-chirp-free soliton with the bandwidth of 75 pm. Ascribed to the spectral-domain intermodal interference, the SMF-FMF cavity serves not only as a ring resonator but also as an intrinsic spectral filter. The wavelength of the narrowband soliton is tunable within 10 nm by a polarization controller. Simulation results validate the experimental observations, revealing that the filtering effect simultaneously balances the self-phase modulation induced spectral broadening and saturable absorption induced temporal compression. The narrowband fiber laser is attractive for spectroscopy, quantum optics, and material processing, and offers a promising platform to study the evolution dynamics of few-mode solitons.

AB - We demonstrate a hybrid-structure fiber laser composed of single-mode fiber (SMF) and four-mode fiber (FMF), capable of delivering stable near-chirp-free soliton with the bandwidth of 75 pm. Ascribed to the spectral-domain intermodal interference, the SMF-FMF cavity serves not only as a ring resonator but also as an intrinsic spectral filter. The wavelength of the narrowband soliton is tunable within 10 nm by a polarization controller. Simulation results validate the experimental observations, revealing that the filtering effect simultaneously balances the self-phase modulation induced spectral broadening and saturable absorption induced temporal compression. The narrowband fiber laser is attractive for spectroscopy, quantum optics, and material processing, and offers a promising platform to study the evolution dynamics of few-mode solitons.

KW - Intrinsic spectral filter

KW - mode-locked fiber laser

KW - narrowband soliton

KW - spectral-domain intermodal interference

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JO - Journal of Lightwave Technology

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Narrowband mode-locked fiber laser via spectral-domain intermodal interference

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Keywords

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