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Multi-point fiber optic laser-ultrasonic transducer based on long-period fiber grating

Multi-point fiber optic laser-ultrasonic transducer based on long-period fiber grating
Multi-point fiber optic laser-ultrasonic transducer based on long-period fiber grating
For ultrasonic non-destructive testing, the development of miniaturized, embeddable, and distributed ultrasonic transducers has always been a hot research topic. In light of this, a novel fiber optic laser-ultrasonic transducer, employing the long-period fiber grating (LPFG), was introduced in this study to facilitate the implementation of embedded and distributed applications. LPFG couples the light transmitted in the optical fiber into the photoacoustic conversion material. After the energy conversion of optic-heat-acoustic, ultrasonic waves can be excited. The finite element models of the mode coupling and photoacoustic conversion of LPFG were established. The transmission spectrum and optical power of LPFG were measured by experiments. The results show that by adjusting the structural parameters of LPFG to make it appear as different transmission depths, the quantitative control of the optical power distribution of the core and cladding can be realized. Two LPFGs, each with distinct coupling coefficients, were fused together and anchored onto aluminum plates to create an ultrasonic transducer with dual micro-ultrasonic sources. An ultrasonic excitation experiment was carried out, and the results revealed that both two LPFGs could excite ultrasonic waves with a peak-to-peak value of about 500 mV and a center frequency of about 3 MHz. The study validates the proposed fiber-optic ultrasonic transducer's steady performance and its potential for multi-point applications.
0041-624X
Luo, Wei
82e9edb3-57e2-4ccb-b838-5248a839b1eb
Liu, Tiejun
07e72a65-be75-4b13-b54d-9ed949c93470
Zou, Dujian
f932d3d9-b218-4268-a86e-0bb63aec1e31
Zhou, Ao
5b42c2a4-26b2-416e-ab3c-446f1ece7a20
Li, Ye
86d13351-982d-46c3-9347-22794f647f86
Luo, Wei
82e9edb3-57e2-4ccb-b838-5248a839b1eb
Liu, Tiejun
07e72a65-be75-4b13-b54d-9ed949c93470
Zou, Dujian
f932d3d9-b218-4268-a86e-0bb63aec1e31
Zhou, Ao
5b42c2a4-26b2-416e-ab3c-446f1ece7a20
Li, Ye
86d13351-982d-46c3-9347-22794f647f86

Luo, Wei, Liu, Tiejun, Zou, Dujian, Zhou, Ao and Li, Ye (2024) Multi-point fiber optic laser-ultrasonic transducer based on long-period fiber grating. Ultrasonics, 137, [107192]. (doi:10.1016/j.ultras.2023.107192).

Record type: Article

Abstract

For ultrasonic non-destructive testing, the development of miniaturized, embeddable, and distributed ultrasonic transducers has always been a hot research topic. In light of this, a novel fiber optic laser-ultrasonic transducer, employing the long-period fiber grating (LPFG), was introduced in this study to facilitate the implementation of embedded and distributed applications. LPFG couples the light transmitted in the optical fiber into the photoacoustic conversion material. After the energy conversion of optic-heat-acoustic, ultrasonic waves can be excited. The finite element models of the mode coupling and photoacoustic conversion of LPFG were established. The transmission spectrum and optical power of LPFG were measured by experiments. The results show that by adjusting the structural parameters of LPFG to make it appear as different transmission depths, the quantitative control of the optical power distribution of the core and cladding can be realized. Two LPFGs, each with distinct coupling coefficients, were fused together and anchored onto aluminum plates to create an ultrasonic transducer with dual micro-ultrasonic sources. An ultrasonic excitation experiment was carried out, and the results revealed that both two LPFGs could excite ultrasonic waves with a peak-to-peak value of about 500 mV and a center frequency of about 3 MHz. The study validates the proposed fiber-optic ultrasonic transducer's steady performance and its potential for multi-point applications.

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Accepted/In Press date: 23 October 2023
e-pub ahead of print date: 24 October 2024
Published date: 27 October 2024

Identifiers

Local EPrints ID: 497906
URI: http://eprints.soton.ac.uk/id/eprint/497906
DOI: doi:10.1016/j.ultras.2023.107192
ISSN: 0041-624X
PURE UUID: 7c1d0d0a-7b2f-4f45-8f13-2880e9d8aeaa
ORCID for Ye Li: ORCID iD orcid.org/0000-0002-2379-5497

Catalogue record

Date deposited: 04 Feb 2025 17:46
Last modified: 06 Feb 2025 03:15

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Contributors

Author: Wei Luo
Author: Tiejun Liu
Author: Dujian Zou
Author: Ao Zhou
Author: Ye Li ORCID iD

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