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Coherent Raman lasing in a short polarization-maintaining fiber with a random fiber Bragg grating array. / Abdullina, S. R.; Skvortsov, M. I.; Vlasov, A. A. и др.

в: Laser Physics Letters, Том 16, № 10, 105001, 30.08.2019.

Результаты исследований: Научные публикации в периодических изданияхстатьяРецензирование

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Abdullina SR, Skvortsov MI, Vlasov AA, Podivilov EV, Babin SA. Coherent Raman lasing in a short polarization-maintaining fiber with a random fiber Bragg grating array. Laser Physics Letters. 2019 авг. 30;16(10):105001. doi: 10.1088/1612-202X/ab3a28

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Abdullina, S. R. ; Skvortsov, M. I. ; Vlasov, A. A. и др. / Coherent Raman lasing in a short polarization-maintaining fiber with a random fiber Bragg grating array. в: Laser Physics Letters. 2019 ; Том 16, № 10.

BibTeX

@article{dab7cf35bfe5428db1e67edf5bbdf70e,
title = "Coherent Raman lasing in a short polarization-maintaining fiber with a random fiber Bragg grating array",
abstract = "We study Raman lasing in a 7 m polarization-maintaining fiber with an array of fiber Bragg gratings with random phases/amplitudes. After optimization of the grating number the threshold pump power decreases to 0.8 W, whereas generated Stokes power at 1092 nm grows linearly above the threshold, reaching ∼3 W for both forward and backward waves. A comparison of experimental data with a developed model shows what such a random laser generates in a coherent regime. Near the threshold, single-longitudinal-mode generation with a ∼50 kHz linewidth is obtained, whereas the number of generated modes grows with power exceeding ∼100 at ∼0.1 W. At higher power, a transition to an incoherent regime with different power increments is observed, while the linewidth grows nonlinearly reaching ∼80 pm. Insertion of a 30 m fiber before gratings enables ∼1.5 times higher backward Stokes power at a narrower linewidth. Additionally, tunable parametric generation around 1140 nm is observed.",
keywords = "fibre Bragg grating (FBG), Raman fibre laser, random distributed feedback, LASER",
author = "Abdullina, {S. R.} and Skvortsov, {M. I.} and Vlasov, {A. A.} and Podivilov, {E. V.} and Babin, {S. A.}",
year = "2019",
month = aug,
day = "30",
doi = "10.1088/1612-202X/ab3a28",
language = "English",
volume = "16",
journal = "Laser Physics Letters",
issn = "1612-2011",
publisher = "IOP Publishing Ltd.",
number = "10",

}

RIS

TY - JOUR

T1 - Coherent Raman lasing in a short polarization-maintaining fiber with a random fiber Bragg grating array

AU - Abdullina, S. R.

AU - Skvortsov, M. I.

AU - Vlasov, A. A.

AU - Podivilov, E. V.

AU - Babin, S. A.

PY - 2019/8/30

Y1 - 2019/8/30

N2 - We study Raman lasing in a 7 m polarization-maintaining fiber with an array of fiber Bragg gratings with random phases/amplitudes. After optimization of the grating number the threshold pump power decreases to 0.8 W, whereas generated Stokes power at 1092 nm grows linearly above the threshold, reaching ∼3 W for both forward and backward waves. A comparison of experimental data with a developed model shows what such a random laser generates in a coherent regime. Near the threshold, single-longitudinal-mode generation with a ∼50 kHz linewidth is obtained, whereas the number of generated modes grows with power exceeding ∼100 at ∼0.1 W. At higher power, a transition to an incoherent regime with different power increments is observed, while the linewidth grows nonlinearly reaching ∼80 pm. Insertion of a 30 m fiber before gratings enables ∼1.5 times higher backward Stokes power at a narrower linewidth. Additionally, tunable parametric generation around 1140 nm is observed.

AB - We study Raman lasing in a 7 m polarization-maintaining fiber with an array of fiber Bragg gratings with random phases/amplitudes. After optimization of the grating number the threshold pump power decreases to 0.8 W, whereas generated Stokes power at 1092 nm grows linearly above the threshold, reaching ∼3 W for both forward and backward waves. A comparison of experimental data with a developed model shows what such a random laser generates in a coherent regime. Near the threshold, single-longitudinal-mode generation with a ∼50 kHz linewidth is obtained, whereas the number of generated modes grows with power exceeding ∼100 at ∼0.1 W. At higher power, a transition to an incoherent regime with different power increments is observed, while the linewidth grows nonlinearly reaching ∼80 pm. Insertion of a 30 m fiber before gratings enables ∼1.5 times higher backward Stokes power at a narrower linewidth. Additionally, tunable parametric generation around 1140 nm is observed.

KW - fibre Bragg grating (FBG)

KW - Raman fibre laser

KW - random distributed feedback

KW - LASER

UR - http://www.scopus.com/inward/record.url?scp=85076294860&partnerID=8YFLogxK

U2 - 10.1088/1612-202X/ab3a28

DO - 10.1088/1612-202X/ab3a28

M3 - Article

AN - SCOPUS:85076294860

VL - 16

JO - Laser Physics Letters

JF - Laser Physics Letters

SN - 1612-2011

IS - 10

M1 - 105001

ER -

ID: 22982204