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Single-Frequency Ring Fiber Laser with Random Distributed Feedback Provided by Artificial Rayleigh Scattering. / Skvortsov, Mikhail I.; Proskurina, Kseniya V.; Golikov, Evgeniy V. и др.

в: Photonics, Том 11, № 2, 103, 02.2024.

Результаты исследований: Научные публикации в периодических изданияхстатьяРецензирование

Harvard

Skvortsov, MI, Proskurina, KV, Golikov, EV, Dostovalov, AV, Wolf, AA, Munkueva, ZE, Abdullina, SR, Terentyev, VS, Egorova, ON, Semjonov, SL & Babin, SA 2024, 'Single-Frequency Ring Fiber Laser with Random Distributed Feedback Provided by Artificial Rayleigh Scattering', Photonics, Том. 11, № 2, 103. https://doi.org/10.3390/photonics11020103

APA

Skvortsov, M. I., Proskurina, K. V., Golikov, E. V., Dostovalov, A. V., Wolf, A. A., Munkueva, Z. E., Abdullina, S. R., Terentyev, V. S., Egorova, O. N., Semjonov, S. L., & Babin, S. A. (2024). Single-Frequency Ring Fiber Laser with Random Distributed Feedback Provided by Artificial Rayleigh Scattering. Photonics, 11(2), [103]. https://doi.org/10.3390/photonics11020103

Vancouver

Skvortsov MI, Proskurina KV, Golikov EV, Dostovalov AV, Wolf AA, Munkueva ZE и др. Single-Frequency Ring Fiber Laser with Random Distributed Feedback Provided by Artificial Rayleigh Scattering. Photonics. 2024 февр.;11(2):103. doi: 10.3390/photonics11020103

Author

Skvortsov, Mikhail I. ; Proskurina, Kseniya V. ; Golikov, Evgeniy V. и др. / Single-Frequency Ring Fiber Laser with Random Distributed Feedback Provided by Artificial Rayleigh Scattering. в: Photonics. 2024 ; Том 11, № 2.

BibTeX

@article{987781c0ea7842ee98003629ed254367,
title = "Single-Frequency Ring Fiber Laser with Random Distributed Feedback Provided by Artificial Rayleigh Scattering",
abstract = "Femtosecond (fs) laser inscription technology allows for the production of in-fiber disordered structures with an enhanced level of Rayleigh backscattering with relatively few induced losses. These properties enable the application of these structures as reflectors in fiber lasers. In this study, a narrow-linewidth erbium fiber laser with random distributed feedback provided by a fs-induced random structure in a ring cavity configuration was developed. A single-frequency regime was observed over the entire lasing power range. At a maximum output power of 7.8 mW, the linewidth did not exceed 0.75 kHz.",
keywords = "femtosecond refractive index modification, random distributed feedback, single-frequency fiber laser",
author = "Skvortsov, {Mikhail I.} and Proskurina, {Kseniya V.} and Golikov, {Evgeniy V.} and Dostovalov, {Alexander V.} and Wolf, {Alexey A.} and Munkueva, {Zhibzema E.} and Abdullina, {Sofia R.} and Terentyev, {Vadim S.} and Egorova, {Olga N.} and Semjonov, {Sergey L.} and Babin, {Sergey A.}",
note = "This study was supported by the state budget of IA&E (project FWNG-2024-0015).",
year = "2024",
month = feb,
doi = "10.3390/photonics11020103",
language = "English",
volume = "11",
journal = "Photonics",
issn = "2304-6732",
publisher = "Multidisciplinary Digital Publishing Institute (MDPI)",
number = "2",

}

RIS

TY - JOUR

T1 - Single-Frequency Ring Fiber Laser with Random Distributed Feedback Provided by Artificial Rayleigh Scattering

AU - Skvortsov, Mikhail I.

AU - Proskurina, Kseniya V.

AU - Golikov, Evgeniy V.

AU - Dostovalov, Alexander V.

AU - Wolf, Alexey A.

AU - Munkueva, Zhibzema E.

AU - Abdullina, Sofia R.

AU - Terentyev, Vadim S.

AU - Egorova, Olga N.

AU - Semjonov, Sergey L.

AU - Babin, Sergey A.

N1 - This study was supported by the state budget of IA&E (project FWNG-2024-0015).

PY - 2024/2

Y1 - 2024/2

N2 - Femtosecond (fs) laser inscription technology allows for the production of in-fiber disordered structures with an enhanced level of Rayleigh backscattering with relatively few induced losses. These properties enable the application of these structures as reflectors in fiber lasers. In this study, a narrow-linewidth erbium fiber laser with random distributed feedback provided by a fs-induced random structure in a ring cavity configuration was developed. A single-frequency regime was observed over the entire lasing power range. At a maximum output power of 7.8 mW, the linewidth did not exceed 0.75 kHz.

AB - Femtosecond (fs) laser inscription technology allows for the production of in-fiber disordered structures with an enhanced level of Rayleigh backscattering with relatively few induced losses. These properties enable the application of these structures as reflectors in fiber lasers. In this study, a narrow-linewidth erbium fiber laser with random distributed feedback provided by a fs-induced random structure in a ring cavity configuration was developed. A single-frequency regime was observed over the entire lasing power range. At a maximum output power of 7.8 mW, the linewidth did not exceed 0.75 kHz.

KW - femtosecond refractive index modification

KW - random distributed feedback

KW - single-frequency fiber laser

UR - https://www.scopus.com/record/display.uri?eid=2-s2.0-85185961184&origin=inward&txGid=8df78a6c97ab29a8a3911c99409b0bc9

UR - https://www.webofscience.com/wos/woscc/full-record/WOS:001172692000001

UR - https://www.mendeley.com/catalogue/2e6d1cc5-f1f4-31c6-8b8b-e3b10572b11c/

U2 - 10.3390/photonics11020103

DO - 10.3390/photonics11020103

M3 - Article

VL - 11

JO - Photonics

JF - Photonics

SN - 2304-6732

IS - 2

M1 - 103

ER -

ID: 61203537