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Study on the asymptotic behavior of the interplay of stimulated Brillouin scattering and Brillouin-enhanced four-wave mixing in standard single-mode fibers

Study on the asymptotic behavior of the interplay of stimulated Brillouin scattering and Brillouin-enhanced four-wave mixing in standard single-mode fibers
Study on the asymptotic behavior of the interplay of stimulated Brillouin scattering and Brillouin-enhanced four-wave mixing in standard single-mode fibers
We theoretically study stimulated Brillouin scattering (SBS) in a standard single-mode fiber (SMF), taking Brillouin-enhanced four-wave-mixing (BEFWM) effects into account. In particular, we investigate the case when there is non-negligible back-reflection of the forward-pump field at the rear fiber end although such reflection is typically weak and undesired. We first justify that BEFWM can be treated as a steady-state process under an undepleted pump approximation as long as the nominal SBS gain remains as low as 40 dB unless the pump, Stokes, anti-Stokes fields interact under near-perfect phase-matching condition, which hardly happens in normal circumstances with a standard SMF. Under the steady-state and undepleted-pump condition, we find analytical solutions to the Stokes and anti-Stokes fields generated by the forward and backward-pump fields, and also derive their asymptotic formulae in both infinitesimal and infinite limits in terms of the phase-mismatch parameter of |ΔkL|, assuming that both seeding Stokes and anti-Stokes fields arise from white background noise components. When |ΔkL|≪1, the acoustic fields driven by SBS and BEFWM tend to interfere destructively, and thus, SBS and BEFWM are anti-resonant to each other, thereby eventually resulting in both Stokes and anti-Stokes scatterings minimized at Δk=0. When |ΔkL|≫1, all the asymptotic curves for the amplification ratios and extra gain factor obey the inverse square law with respect to |ΔkL|, irrespective of the level of the back-reflection at the rear fiber. In particular, when |ΔkL| is in the intermediate range where the FWM gain remains relatively large, SBS and BEFWM can be cooperative via the phase-pulling effect by the FWM gain, thereby leading to quasi-resonant growths of both Stokes and anti-Stokes fields. However, the extra gain by BEFWM reduces significantly if the level of the back-reflection remains below one percent, irrespective of the value of |ΔkL|. Since the interplay between SBS and BEFWM is inherently phase-dependent whilst it can still happen with white noise seeding with random phases, the related mechanism can further be exploited for all-optical switching functionality. We expect our theoretical modeling and formulation will be useful for designing and analyzing a variety of fiber systems that incorporate high-power narrow-linewidth light undergoing non-negligible back-reflection under various conditions.
0374-4884
Achar Vasant, Harish
833a8dce-cb98-479c-a78d-f754883ff2fd
Nilsson, Johan
f41d0948-4ca9-4b93-b44d-680ca0bf157b
Park, Kyoungyoon
ab6b4ed5-ae97-444f-8ffa-6f19ad7bb575
Jeong, Yoonchan
94ab6f5b-7623-4061-8598-8de2e7aa751e
Achar Vasant, Harish
833a8dce-cb98-479c-a78d-f754883ff2fd
Nilsson, Johan
f41d0948-4ca9-4b93-b44d-680ca0bf157b
Park, Kyoungyoon
ab6b4ed5-ae97-444f-8ffa-6f19ad7bb575
Jeong, Yoonchan
94ab6f5b-7623-4061-8598-8de2e7aa751e

Achar Vasant, Harish, Nilsson, Johan, Park, Kyoungyoon and Jeong, Yoonchan (2021) Study on the asymptotic behavior of the interplay of stimulated Brillouin scattering and Brillouin-enhanced four-wave mixing in standard single-mode fibers. Journal of the Korean Physical Society. (doi:10.1007/s40042-021-00330-9).

Record type: Article

Abstract

We theoretically study stimulated Brillouin scattering (SBS) in a standard single-mode fiber (SMF), taking Brillouin-enhanced four-wave-mixing (BEFWM) effects into account. In particular, we investigate the case when there is non-negligible back-reflection of the forward-pump field at the rear fiber end although such reflection is typically weak and undesired. We first justify that BEFWM can be treated as a steady-state process under an undepleted pump approximation as long as the nominal SBS gain remains as low as 40 dB unless the pump, Stokes, anti-Stokes fields interact under near-perfect phase-matching condition, which hardly happens in normal circumstances with a standard SMF. Under the steady-state and undepleted-pump condition, we find analytical solutions to the Stokes and anti-Stokes fields generated by the forward and backward-pump fields, and also derive their asymptotic formulae in both infinitesimal and infinite limits in terms of the phase-mismatch parameter of |ΔkL|, assuming that both seeding Stokes and anti-Stokes fields arise from white background noise components. When |ΔkL|≪1, the acoustic fields driven by SBS and BEFWM tend to interfere destructively, and thus, SBS and BEFWM are anti-resonant to each other, thereby eventually resulting in both Stokes and anti-Stokes scatterings minimized at Δk=0. When |ΔkL|≫1, all the asymptotic curves for the amplification ratios and extra gain factor obey the inverse square law with respect to |ΔkL|, irrespective of the level of the back-reflection at the rear fiber. In particular, when |ΔkL| is in the intermediate range where the FWM gain remains relatively large, SBS and BEFWM can be cooperative via the phase-pulling effect by the FWM gain, thereby leading to quasi-resonant growths of both Stokes and anti-Stokes fields. However, the extra gain by BEFWM reduces significantly if the level of the back-reflection remains below one percent, irrespective of the value of |ΔkL|. Since the interplay between SBS and BEFWM is inherently phase-dependent whilst it can still happen with white noise seeding with random phases, the related mechanism can further be exploited for all-optical switching functionality. We expect our theoretical modeling and formulation will be useful for designing and analyzing a variety of fiber systems that incorporate high-power narrow-linewidth light undergoing non-negligible back-reflection under various conditions.

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SBS-BEFWM-Revised2 - Accepted Manuscript
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Accepted/In Press date: 25 October 2021
Published date: 21 December 2021
Learn more about Zepler Institute for Photonics and Nanoelectronics research

Identifiers

Local EPrints ID: 454268
URI: http://eprints.soton.ac.uk/id/eprint/454268
DOI: doi:10.1007/s40042-021-00330-9
ISSN: 0374-4884
PURE UUID: 2d8e9d73-5f1a-425f-b1d7-cd9df0c835c6
ORCID for Johan Nilsson: ORCID iD orcid.org/0000-0003-1691-7959

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Date deposited: 04 Feb 2022 17:36
Last modified: 17 Mar 2024 07:04

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Contributors

Author: Harish Achar Vasant
Author: Johan Nilsson ORCID iD
Author: Kyoungyoon Park
Author: Yoonchan Jeong

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