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Optical mode localization sensing based on fiber-coupled ring resonators

Optical mode localization sensing based on fiber-coupled ring resonators
Optical mode localization sensing based on fiber-coupled ring resonators

Mode localization is widely used in coupled micro-electro-mechanical system (MEMS) resonators for ultra-sensitive sensing. Here, for the first time to the best of our knowledge, we experimentally demonstrate the phenomenon of optical mode localization in fiber-coupled ring resonators. For an optical system, resonant mode splitting happens when multiple resonators are coupled. Localized external perturbation applied to the system will cause uneven energy distributions of the split modes to the coupled rings, this phenomenon is called the optical mode localization. In this paper, two fiber-ring resonators are coupled. The perturbation is generated by two thermoelectric heaters. We define the normalized amplitude difference between the two split modes as: (T M1 − T M 2)/T M 1 × 100%. It is found that this value can be varied from 2.5% to 22.5% when the temperature are changed by the value from 0K to 8.5K. This brings a ∼ 2.4%/K variation rate, which is three orders of magnitude greater than the variation rate of the frequency over temperature changes of the resonator due to thermal perturbation. The measured data reach good agreement with theoretical results, which demonstrates the feasibility of optical mode localization as a new sensing mechanism for ultra-sensitive fiber temperature sensing.

1094-4087
21834-21844
Wang, Shumeng
c62f0be1-7b4f-4231-a94a-93ef9c9f69f1
Pi, Hailong
e275259b-31f8-430c-89d5-0d029740d60e
Feng, Yu
631d9d39-ac55-4282-ab98-5b7d0dd2682e
Yan, Jize
786dc090-843b-435d-adbe-1d35e8fc5828
Wang, Shumeng
c62f0be1-7b4f-4231-a94a-93ef9c9f69f1
Pi, Hailong
e275259b-31f8-430c-89d5-0d029740d60e
Feng, Yu
631d9d39-ac55-4282-ab98-5b7d0dd2682e
Yan, Jize
786dc090-843b-435d-adbe-1d35e8fc5828

Wang, Shumeng, Pi, Hailong, Feng, Yu and Yan, Jize (2023) Optical mode localization sensing based on fiber-coupled ring resonators. Optics Express, 31 (13), 21834-21844. (doi:10.1364/OE.492524).

Record type: Article

Abstract

Mode localization is widely used in coupled micro-electro-mechanical system (MEMS) resonators for ultra-sensitive sensing. Here, for the first time to the best of our knowledge, we experimentally demonstrate the phenomenon of optical mode localization in fiber-coupled ring resonators. For an optical system, resonant mode splitting happens when multiple resonators are coupled. Localized external perturbation applied to the system will cause uneven energy distributions of the split modes to the coupled rings, this phenomenon is called the optical mode localization. In this paper, two fiber-ring resonators are coupled. The perturbation is generated by two thermoelectric heaters. We define the normalized amplitude difference between the two split modes as: (T M1 − T M 2)/T M 1 × 100%. It is found that this value can be varied from 2.5% to 22.5% when the temperature are changed by the value from 0K to 8.5K. This brings a ∼ 2.4%/K variation rate, which is three orders of magnitude greater than the variation rate of the frequency over temperature changes of the resonator due to thermal perturbation. The measured data reach good agreement with theoretical results, which demonstrates the feasibility of optical mode localization as a new sensing mechanism for ultra-sensitive fiber temperature sensing.

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Optical_mode_localization_based_on_fiber_coupled_ring_resonators - Accepted Manuscript
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oe-31-13-21834 - Accepted Manuscript
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More information

Submitted date: 6 April 2023
Accepted/In Press date: 3 June 2023
Published date: 13 June 2023
Additional Information: Funding Information: Acknowledgments. This work was supported by the Engineering and Physical Sciences Research Council under funding body EPSRC EP/V000624/1. Publisher Copyright: © 2023 OSA - The Optical Society. All rights reserved.
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Identifiers

Local EPrints ID: 477896
URI: http://eprints.soton.ac.uk/id/eprint/477896
DOI: doi:10.1364/OE.492524
ISSN: 1094-4087
PURE UUID: f565ece1-0afb-43bf-aa48-92515cc4852a
ORCID for Jize Yan: ORCID iD orcid.org/0000-0002-2886-2847

Catalogue record

Date deposited: 16 Jun 2023 16:30
Last modified: 17 Mar 2024 03:39

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Contributors

Author: Shumeng Wang
Author: Hailong Pi
Author: Yu Feng
Author: Jize Yan ORCID iD

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