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Amplification of dissipative solitons with a polarisation-maintaining tapered fibre amplifier. / Kuznetsov, A. G.; Kharenko, D. S.; Babin, S. A.

In: Quantum Electronics, Vol. 48, No. 12, 01.01.2018, p. 1105-1108.

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Kuznetsov AG, Kharenko DS, Babin SA. Amplification of dissipative solitons with a polarisation-maintaining tapered fibre amplifier. Quantum Electronics. 2018 Jan 1;48(12):1105-1108. doi: 10.1070/QEL16853

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Kuznetsov, A. G. ; Kharenko, D. S. ; Babin, S. A. / Amplification of dissipative solitons with a polarisation-maintaining tapered fibre amplifier. In: Quantum Electronics. 2018 ; Vol. 48, No. 12. pp. 1105-1108.

BibTeX

@article{647ee50b5d804db4b8b5b6ef4b204c5d,
title = "Amplification of dissipative solitons with a polarisation-maintaining tapered fibre amplifier",
abstract = "The generation of strongly chirped dissipative solitons offers great opportunities for generating high-power laser pulses of short duration. We demonstrate the possibility of amplifying such pulses in a polarisation-maintaining tapered fibre having 32 mm mode diameter at the output end. Highly chirped pulses with a repetition rate of 14.3 MHz and a duration of 10 ps at 1055 nm centre wavelength are amplified in an all-fibre circuit to 2.11 mJ energy and compressed by diffraction gratings to a duration of ~297 fs. Reducing the pulse repetition rate to 1 MHz allows a 16.5 mJ output pulse energy to be achieved without manifestations of SRS and self-phase modulation in the spectrum.",
keywords = "Dissipative soliton, Femtosecond laser, Mode locking, Optical fibre, Taper, Ytterbium amplifier, taper, LASER, mode locking, POWER, GRATINGS, femtosecond laser, optical fibre, dissipative soliton, ytterbium amplifier",
author = "Kuznetsov, {A. G.} and Kharenko, {D. S.} and Babin, {S. A.}",
year = "2018",
month = jan,
day = "1",
doi = "10.1070/QEL16853",
language = "English",
volume = "48",
pages = "1105--1108",
journal = "Quantum Electronics",
issn = "1063-7818",
publisher = "Turpion Ltd.",
number = "12",

}

RIS

TY - JOUR

T1 - Amplification of dissipative solitons with a polarisation-maintaining tapered fibre amplifier

AU - Kuznetsov, A. G.

AU - Kharenko, D. S.

AU - Babin, S. A.

PY - 2018/1/1

Y1 - 2018/1/1

N2 - The generation of strongly chirped dissipative solitons offers great opportunities for generating high-power laser pulses of short duration. We demonstrate the possibility of amplifying such pulses in a polarisation-maintaining tapered fibre having 32 mm mode diameter at the output end. Highly chirped pulses with a repetition rate of 14.3 MHz and a duration of 10 ps at 1055 nm centre wavelength are amplified in an all-fibre circuit to 2.11 mJ energy and compressed by diffraction gratings to a duration of ~297 fs. Reducing the pulse repetition rate to 1 MHz allows a 16.5 mJ output pulse energy to be achieved without manifestations of SRS and self-phase modulation in the spectrum.

AB - The generation of strongly chirped dissipative solitons offers great opportunities for generating high-power laser pulses of short duration. We demonstrate the possibility of amplifying such pulses in a polarisation-maintaining tapered fibre having 32 mm mode diameter at the output end. Highly chirped pulses with a repetition rate of 14.3 MHz and a duration of 10 ps at 1055 nm centre wavelength are amplified in an all-fibre circuit to 2.11 mJ energy and compressed by diffraction gratings to a duration of ~297 fs. Reducing the pulse repetition rate to 1 MHz allows a 16.5 mJ output pulse energy to be achieved without manifestations of SRS and self-phase modulation in the spectrum.

KW - Dissipative soliton

KW - Femtosecond laser

KW - Mode locking

KW - Optical fibre

KW - Taper

KW - Ytterbium amplifier

KW - taper

KW - LASER

KW - mode locking

KW - POWER

KW - GRATINGS

KW - femtosecond laser

KW - optical fibre

KW - dissipative soliton

KW - ytterbium amplifier

UR - http://www.scopus.com/inward/record.url?scp=85059061274&partnerID=8YFLogxK

U2 - 10.1070/QEL16853

DO - 10.1070/QEL16853

M3 - Article

AN - SCOPUS:85059061274

VL - 48

SP - 1105

EP - 1108

JO - Quantum Electronics

JF - Quantum Electronics

SN - 1063-7818

IS - 12

ER -

ID: 18059226