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Laser-generated focused ultrasound transducer using a perforated photoacoustic lens for tissue characterizationopen access

Authors
Heo, JeongminBiswas, DeblinaPark, Kyu KwanSon, DongheePark, Hui JoonBaac, Hyoung Won
Issue Date
Mar-2021
Publisher
OSA - The Optical Society
Citation
Biomedical Optics Express, v.12, no.3, pp.1375 - 1390
Indexed
SCIE
SCOPUS
Journal Title
Biomedical Optics Express
Volume
12
Number
3
Start Page
1375
End Page
1390
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/1372
DOI
10.1364/BOE.416884
ISSN
2156-7085
Abstract
We demonstrate a laser-generated focused ultrasound (LGFU) transducer using a perforated-photoacoustic (PA) lens and a piezoelectric probe hydrophone suitable for highfrequency ultrasound tissue characterization. The perforated-PA lens employed a centrally located hydrophone to achieve a maximum directional response at 0° from the axial direction of the lens. Under pulsed laser irradiation, the lens produced LGFU pulses with a frequency bandwidth of 6-30 MHz and high-peak pressure amplitudes of up to 46.5 MPa at a 70-μm lateral focal width. Since the hydrophone capable of covering the transmitter frequency range (~20 MHz) was integrated with the lens, this hybrid transducer differentiated tissue elasticity by generating and detecting high-frequency ultrasound signals. Backscattered (BS) waves from excised tissues (bone, skin, muscle, and fat) were measured and also confirmed by laser-flash shadowgraphy. We characterized the LGFU-BS signals in terms of mean frequency and spectral energy in the frequency domain, enabling to clearly differentiate tissue types. Tissue characterization was also performed with respect to the LGFU penetration depth (from the surface, 1-, and 2-mm depth). Despite acoustic attenuation over the penetration depth, LGFU-BS characterization shows consistent results that can differentiate the elastic properties of tissues. We expect that the proposed transducer can be utilized for other tissue types and also for non-destructive evaluation based on the elasticity of unknown materials.
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