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Nonlinear Waves in Multimode Fibers. / Чеховской, Игорь Сергеевич; Сидельников, Олег Сергеевич; Редюк, Алексей Александрович et al.

Сингапур : Springer Singapore, 2018. 55 p.

Research output: Book/ReportBookResearchpeer-review

Harvard

Чеховской, ИС, Сидельников, ОС, Редюк, АА, Штырина, ОВ, Федорук, МП, Турицын, СК, Каблуков, СИ, Бабин, СА & Вабниц, С 2018, Nonlinear Waves in Multimode Fibers. Springer Singapore, Сингапур.

APA

Чеховской, И. С., Сидельников, О. С., Редюк, А. А., Штырина, О. В., Федорук, М. П., Турицын, С. К., Каблуков, С. И., Бабин, С. А., & Вабниц, С. (2018). Nonlinear Waves in Multimode Fibers. Springer Singapore.

Vancouver

Чеховской ИС, Сидельников ОС, Редюк АА, Штырина ОВ, Федорук МП, Турицын СК et al. Nonlinear Waves in Multimode Fibers. Сингапур: Springer Singapore, 2018. 55 p.

Author

Чеховской, Игорь Сергеевич ; Сидельников, Олег Сергеевич ; Редюк, Алексей Александрович et al. / Nonlinear Waves in Multimode Fibers. Сингапур : Springer Singapore, 2018. 55 p.

BibTeX

@book{7e5c50cdfb554894a99d3011142918c0,
title = "Nonlinear Waves in Multimode Fibers",
abstract = "We overview recent advances in the field of nonlinear guided wave propagation in multimode fibers. It is only in recent years that the study of nonlinear optics in multimode fibers has experienced a revival of research interest. Nonlinear arrays of linearly coupled multicore fibers permit spatiotemporal reshaping and coherent combining of ultrashort optical pulses. Spatial-division multiplexing is an emerging technology for increasing the capacity of optical communication links, and the presence of nonlinear mode coupling requires a careful analysis. Multimode nonlinear fibers have a strong potential for the implementation of a new class of high-power fiber lasers. We describe experiments of Raman beam cleanup that permit to implement quasi-single-mode Raman fiber laser with multimode pumps. Next we discuss the recently discovered effect of Kerr beam self-cleaning, whereby a speckled signal at the output of a multimode fiber may evolve toward a bell-shaped transverse profile.",
author = "Чеховской, {Игорь Сергеевич} and Сидельников, {Олег Сергеевич} and Редюк, {Алексей Александрович} and Штырина, {Ольга Владимировна} and Федорук, {Михаил Петрович} and Турицын, {Сергей Константинович} and Каблуков, {Сергей Иванович} and Бабин, {Сергей Алексеевич} and Стефан Вабниц",
year = "2018",
language = "English",
isbn = "978-981-10-1477-2",
publisher = "Springer Singapore",
address = "Singapore",

}

RIS

TY - BOOK

T1 - Nonlinear Waves in Multimode Fibers

AU - Чеховской, Игорь Сергеевич

AU - Сидельников, Олег Сергеевич

AU - Редюк, Алексей Александрович

AU - Штырина, Ольга Владимировна

AU - Федорук, Михаил Петрович

AU - Турицын, Сергей Константинович

AU - Каблуков, Сергей Иванович

AU - Бабин, Сергей Алексеевич

AU - Вабниц, Стефан

PY - 2018

Y1 - 2018

N2 - We overview recent advances in the field of nonlinear guided wave propagation in multimode fibers. It is only in recent years that the study of nonlinear optics in multimode fibers has experienced a revival of research interest. Nonlinear arrays of linearly coupled multicore fibers permit spatiotemporal reshaping and coherent combining of ultrashort optical pulses. Spatial-division multiplexing is an emerging technology for increasing the capacity of optical communication links, and the presence of nonlinear mode coupling requires a careful analysis. Multimode nonlinear fibers have a strong potential for the implementation of a new class of high-power fiber lasers. We describe experiments of Raman beam cleanup that permit to implement quasi-single-mode Raman fiber laser with multimode pumps. Next we discuss the recently discovered effect of Kerr beam self-cleaning, whereby a speckled signal at the output of a multimode fiber may evolve toward a bell-shaped transverse profile.

AB - We overview recent advances in the field of nonlinear guided wave propagation in multimode fibers. It is only in recent years that the study of nonlinear optics in multimode fibers has experienced a revival of research interest. Nonlinear arrays of linearly coupled multicore fibers permit spatiotemporal reshaping and coherent combining of ultrashort optical pulses. Spatial-division multiplexing is an emerging technology for increasing the capacity of optical communication links, and the presence of nonlinear mode coupling requires a careful analysis. Multimode nonlinear fibers have a strong potential for the implementation of a new class of high-power fiber lasers. We describe experiments of Raman beam cleanup that permit to implement quasi-single-mode Raman fiber laser with multimode pumps. Next we discuss the recently discovered effect of Kerr beam self-cleaning, whereby a speckled signal at the output of a multimode fiber may evolve toward a bell-shaped transverse profile.

M3 - Book

SN - 978-981-10-1477-2

BT - Nonlinear Waves in Multimode Fibers

PB - Springer Singapore

CY - Сингапур

ER -

ID: 19097849