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Tunable injection-seeded fan-out-PPLN optical parametric oscillator for high-sensitivity gas detection. / Erushin, E.; Nyushkov, B.; Ivanenko, A. et al.

In: Laser Physics Letters, Vol. 18, No. 11, 116201, 11.2021.

Research output: Contribution to journalArticlepeer-review

Harvard

Erushin, E, Nyushkov, B, Ivanenko, A, Akhmathanov, A, Shur, V, Boyko, A, Kostyukova, N & Kolker, D 2021, 'Tunable injection-seeded fan-out-PPLN optical parametric oscillator for high-sensitivity gas detection', Laser Physics Letters, vol. 18, no. 11, 116201. https://doi.org/10.1088/1612-202X/ac2585

APA

Erushin, E., Nyushkov, B., Ivanenko, A., Akhmathanov, A., Shur, V., Boyko, A., Kostyukova, N., & Kolker, D. (2021). Tunable injection-seeded fan-out-PPLN optical parametric oscillator for high-sensitivity gas detection. Laser Physics Letters, 18(11), [116201]. https://doi.org/10.1088/1612-202X/ac2585

Vancouver

Erushin E, Nyushkov B, Ivanenko A, Akhmathanov A, Shur V, Boyko A et al. Tunable injection-seeded fan-out-PPLN optical parametric oscillator for high-sensitivity gas detection. Laser Physics Letters. 2021 Nov;18(11):116201. doi: 10.1088/1612-202X/ac2585

Author

Erushin, E. ; Nyushkov, B. ; Ivanenko, A. et al. / Tunable injection-seeded fan-out-PPLN optical parametric oscillator for high-sensitivity gas detection. In: Laser Physics Letters. 2021 ; Vol. 18, No. 11.

BibTeX

@article{dc4656316fe74e079bf0a2d803a4cd7e,
title = "Tunable injection-seeded fan-out-PPLN optical parametric oscillator for high-sensitivity gas detection",
abstract = "We demonstrate the possibility to enhance spectroscopic and lidar capabilities of mid-infrared pulsed optical parametric oscillators (OPOs) based on fan-out periodically-poled lithium niobate (fan-out PPLN) by combining their own wavelength tunability with tunable continuous-wave injection seeding. To that effect, we have developed an original test-bed singly-resonant OPO configuration in which continuous wavelength tuning via intracavity translation of the fan-out PPLN is assisted by simultaneous tuning of a narrow-linewidth fiber-coupled seed diode laser. It is shown that such an approach provides strong (at least by one order of magnitude) spectral narrowing, wavelength stabilization and beam-quality improvement for the signal and idler radiations (tunable around 1.54 µm and 3.33 µm, respectively). The achieved spectral narrowing does not noticeably affect the OPO output pulse energy, but allows fine wavelength tuning and significantly increases the power spectral density which can be available at an analyzed gas absorption line. Thus, it leads to a noticeable increase in sensitivity of the photoacoustic gas sensing carried out with the developed OPO. We have achieved an almost double (~80%) increase in the photoacoustic response of a methane detector to the reference gas mixture with low concentration methane. The application of the method can be simply extended to many gas absorptions lines within the range 3.1-3.4 µm, due to the potentially wide tunability of the developed OPO. The demonstrated OPO features simplicity, reliability and energy efficiency. It can advance various LIDAR techniques due to the unique combination of spectral and energy characteristics. ",
keywords = "injection seeding, optical parametric oscillator, photoacoustic gas sensing, wavelength tuning",
author = "E. Erushin and B. Nyushkov and A. Ivanenko and A. Akhmathanov and V. Shur and A. Boyko and N. Kostyukova and D. Kolker",
note = "Научное исследование выполнено в результате сотрудничества нескольких организаций. Работа членов научного коллектива Д.Б. Колкера и Е.Ю Ерушина поддержана грантом РНФ №17-72-30006, работа соавторов поддержана из других источников. Publisher Copyright: {\textcopyright} 2021 Astro Ltd.",
year = "2021",
month = nov,
doi = "10.1088/1612-202X/ac2585",
language = "English",
volume = "18",
journal = "Laser Physics Letters",
issn = "1612-2011",
publisher = "IOP Publishing Ltd.",
number = "11",

}

RIS

TY - JOUR

T1 - Tunable injection-seeded fan-out-PPLN optical parametric oscillator for high-sensitivity gas detection

AU - Erushin, E.

AU - Nyushkov, B.

AU - Ivanenko, A.

AU - Akhmathanov, A.

AU - Shur, V.

AU - Boyko, A.

AU - Kostyukova, N.

AU - Kolker, D.

N1 - Научное исследование выполнено в результате сотрудничества нескольких организаций. Работа членов научного коллектива Д.Б. Колкера и Е.Ю Ерушина поддержана грантом РНФ №17-72-30006, работа соавторов поддержана из других источников. Publisher Copyright: © 2021 Astro Ltd.

PY - 2021/11

Y1 - 2021/11

N2 - We demonstrate the possibility to enhance spectroscopic and lidar capabilities of mid-infrared pulsed optical parametric oscillators (OPOs) based on fan-out periodically-poled lithium niobate (fan-out PPLN) by combining their own wavelength tunability with tunable continuous-wave injection seeding. To that effect, we have developed an original test-bed singly-resonant OPO configuration in which continuous wavelength tuning via intracavity translation of the fan-out PPLN is assisted by simultaneous tuning of a narrow-linewidth fiber-coupled seed diode laser. It is shown that such an approach provides strong (at least by one order of magnitude) spectral narrowing, wavelength stabilization and beam-quality improvement for the signal and idler radiations (tunable around 1.54 µm and 3.33 µm, respectively). The achieved spectral narrowing does not noticeably affect the OPO output pulse energy, but allows fine wavelength tuning and significantly increases the power spectral density which can be available at an analyzed gas absorption line. Thus, it leads to a noticeable increase in sensitivity of the photoacoustic gas sensing carried out with the developed OPO. We have achieved an almost double (~80%) increase in the photoacoustic response of a methane detector to the reference gas mixture with low concentration methane. The application of the method can be simply extended to many gas absorptions lines within the range 3.1-3.4 µm, due to the potentially wide tunability of the developed OPO. The demonstrated OPO features simplicity, reliability and energy efficiency. It can advance various LIDAR techniques due to the unique combination of spectral and energy characteristics.

AB - We demonstrate the possibility to enhance spectroscopic and lidar capabilities of mid-infrared pulsed optical parametric oscillators (OPOs) based on fan-out periodically-poled lithium niobate (fan-out PPLN) by combining their own wavelength tunability with tunable continuous-wave injection seeding. To that effect, we have developed an original test-bed singly-resonant OPO configuration in which continuous wavelength tuning via intracavity translation of the fan-out PPLN is assisted by simultaneous tuning of a narrow-linewidth fiber-coupled seed diode laser. It is shown that such an approach provides strong (at least by one order of magnitude) spectral narrowing, wavelength stabilization and beam-quality improvement for the signal and idler radiations (tunable around 1.54 µm and 3.33 µm, respectively). The achieved spectral narrowing does not noticeably affect the OPO output pulse energy, but allows fine wavelength tuning and significantly increases the power spectral density which can be available at an analyzed gas absorption line. Thus, it leads to a noticeable increase in sensitivity of the photoacoustic gas sensing carried out with the developed OPO. We have achieved an almost double (~80%) increase in the photoacoustic response of a methane detector to the reference gas mixture with low concentration methane. The application of the method can be simply extended to many gas absorptions lines within the range 3.1-3.4 µm, due to the potentially wide tunability of the developed OPO. The demonstrated OPO features simplicity, reliability and energy efficiency. It can advance various LIDAR techniques due to the unique combination of spectral and energy characteristics.

KW - injection seeding

KW - optical parametric oscillator

KW - photoacoustic gas sensing

KW - wavelength tuning

UR - http://www.scopus.com/inward/record.url?scp=85117692763&partnerID=8YFLogxK

UR - https://elibrary.ru/item.asp?id=47516819

UR - https://www.mendeley.com/catalogue/b5daeab2-5f0c-343d-b9d1-646a22b1abe6/

U2 - 10.1088/1612-202X/ac2585

DO - 10.1088/1612-202X/ac2585

M3 - Article

AN - SCOPUS:85117692763

VL - 18

JO - Laser Physics Letters

JF - Laser Physics Letters

SN - 1612-2011

IS - 11

M1 - 116201

ER -

ID: 34537391