Invited Paper: High-power monolithic narrow-linewidth 1.6 mJ/8 ns fiber laser system based on all-glass spun tapered double-clad fiber amplifier

Hossein Fathi; Uttam Kumar Samanta; Evgenii Motorin; Ebrahim Aghayari; Andrey Grishchenko; Matias Koivurova; Regina Gumenyuk; Valery Filippov

doi:10.1016/j.yofte.2025.104465

Invited Paper: High-power monolithic narrow-linewidth 1.6 mJ/8 ns fiber laser system based on all-glass spun tapered double-clad fiber amplifier

Hossein Fathi^*
, Uttam Kumar Samanta
, Evgenii Motorin
, Ebrahim Aghayari
, Andrey Grishchenko
, Matias Koivurova
, Regina Gumenyuk
, Valery Filippov

^*Corresponding author for this work

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

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Abstract

High-energy, narrow-linewidth nanosecond pulses are highly demanding for many applications that require high temporal and spatial coherence. However, the amplification of narrow-linewidth pulses is primarily limited by stimulated Brillouin scattering, which causes pulse instabilities, back-reflected pulses, and catastrophic damage effects on optical components. In this work, we present a 1.6 mJ narrow-linewidth nanosecond pulsed fiber laser system based on all-glass spun tapered double-clad fibers without employing any mitigating technique for the stimulated Brillouin scattering effect. The system delivers pulses with an 8 ns duration at a 100 kHz repetition rate, over 97.5% degree of polarization, a beam quality factor of M²∼1.3, a spectral linewidth of 53.8 MHz, a 160 W average power, and 188 kW peak power with a slope efficiency of 97.6%. The degree of spatial coherence of the amplified signal was measured to be 0.94. Our results are highly valued in applications requiring high-energy, high-coherence pulses with spectral, spatial, and polarization characteristics in a compact system.

Original language	English
Article number	104465
Journal	Optical Fiber Technology
Volume	96
DOIs	https://doi.org/10.1016/j.yofte.2025.104465
Publication status	E-pub ahead of print - 18 Nov 2025
Publication type	A1 Journal article-refereed

Keywords

Fiber laser
Narrow-linewidth
Spun taper
Tapered double-clad fiber

Publication forum classification

Publication forum level 1

ASJC Scopus subject areas

Control and Systems Engineering
Electronic, Optical and Magnetic Materials
Atomic and Molecular Physics, and Optics
Instrumentation
Electrical and Electronic Engineering

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10.1016/j.yofte.2025.104465Licence: CC BY

Invited Paper High-power monolithic narrow-linewidthFinal published version, 2.45 MBLicence: CC BY

https://urn.fi/URN:NBN:fi:tuni-202601081156Licence: CC BY

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Fathi, H., Samanta, U. K., Motorin, E., Aghayari, E., Grishchenko, A., Koivurova, M., Gumenyuk, R., & Filippov, V. (2025). Invited Paper: High-power monolithic narrow-linewidth 1.6 mJ/8 ns fiber laser system based on all-glass spun tapered double-clad fiber amplifier. Optical Fiber Technology, 96, Article 104465. Advance online publication. https://doi.org/10.1016/j.yofte.2025.104465

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title = "Invited Paper: High-power monolithic narrow-linewidth 1.6 mJ/8 ns fiber laser system based on all-glass spun tapered double-clad fiber amplifier",

abstract = "High-energy, narrow-linewidth nanosecond pulses are highly demanding for many applications that require high temporal and spatial coherence. However, the amplification of narrow-linewidth pulses is primarily limited by stimulated Brillouin scattering, which causes pulse instabilities, back-reflected pulses, and catastrophic damage effects on optical components. In this work, we present a 1.6 mJ narrow-linewidth nanosecond pulsed fiber laser system based on all-glass spun tapered double-clad fibers without employing any mitigating technique for the stimulated Brillouin scattering effect. The system delivers pulses with an 8 ns duration at a 100 kHz repetition rate, over 97.5\% degree of polarization, a beam quality factor of M2∼1.3, a spectral linewidth of 53.8 MHz, a 160 W average power, and 188 kW peak power with a slope efficiency of 97.6\%. The degree of spatial coherence of the amplified signal was measured to be 0.94. Our results are highly valued in applications requiring high-energy, high-coherence pulses with spectral, spatial, and polarization characteristics in a compact system.",

keywords = "Fiber laser, Narrow-linewidth, Spun taper, Tapered double-clad fiber",

author = "Hossein Fathi and Samanta, \{Uttam Kumar\} and Evgenii Motorin and Ebrahim Aghayari and Andrey Grishchenko and Matias Koivurova and Regina Gumenyuk and Valery Filippov",

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doi = "10.1016/j.yofte.2025.104465",

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AU - Fathi, Hossein

AU - Samanta, Uttam Kumar

AU - Motorin, Evgenii

AU - Aghayari, Ebrahim

AU - Grishchenko, Andrey

AU - Koivurova, Matias

AU - Gumenyuk, Regina

AU - Filippov, Valery

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AB - High-energy, narrow-linewidth nanosecond pulses are highly demanding for many applications that require high temporal and spatial coherence. However, the amplification of narrow-linewidth pulses is primarily limited by stimulated Brillouin scattering, which causes pulse instabilities, back-reflected pulses, and catastrophic damage effects on optical components. In this work, we present a 1.6 mJ narrow-linewidth nanosecond pulsed fiber laser system based on all-glass spun tapered double-clad fibers without employing any mitigating technique for the stimulated Brillouin scattering effect. The system delivers pulses with an 8 ns duration at a 100 kHz repetition rate, over 97.5% degree of polarization, a beam quality factor of M2∼1.3, a spectral linewidth of 53.8 MHz, a 160 W average power, and 188 kW peak power with a slope efficiency of 97.6%. The degree of spatial coherence of the amplified signal was measured to be 0.94. Our results are highly valued in applications requiring high-energy, high-coherence pulses with spectral, spatial, and polarization characteristics in a compact system.

KW - Fiber laser

KW - Narrow-linewidth

KW - Spun taper

KW - Tapered double-clad fiber

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DO - 10.1016/j.yofte.2025.104465

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SN - 1068-5200

VL - 96

JO - Optical Fiber Technology

JF - Optical Fiber Technology

M1 - 104465

ER -

Invited Paper: High-power monolithic narrow-linewidth 1.6 mJ/8 ns fiber laser system based on all-glass spun tapered double-clad fiber amplifier

Abstract

Keywords

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