TY - JOUR
T1 - Electrowetting-driven liquid lens for ultrasound
T2 - Enabling controllable focal length and flexible beam steering
AU - Hsieh, Zong Han
AU - Fan, Ching Hsiang
AU - Lin, Yeu Chern
AU - Yeh, Chih Kuang
N1 - Funding Information:
The authors gratefully acknowledge the support of the National Science and Technology Council, Taiwan 110-2221-E-007-019-MY3, 111-2221-E-007-019-MY3, 111-2321-B-002-014, and 112-2636-E-006-007. We thank National Center for High-performance Computing (NCHC) for providing computational and storage resources and Dr. Da-Jeng, Yao for the help with experiments. This research was also supported in part by Higher Education Spout Project, Ministry of Education to the Headquarters of University Advancement in National Cheng Kung University.
Publisher Copyright:
© 2023 Elsevier B.V.
PY - 2023/12
Y1 - 2023/12
N2 - Focused ultrasound is an increasingly popular non-invasive treatment modality. Still, its fixed focal point requires an array ultrasound transducer or scanning system to cover different therapeutic scenarios. To address this limitation, we developed an electrically-controlled liquid lens that enables dynamic beam focusing and steering of the incident plane ultrasound beam. The lens was carefully optimized for low-energy attenuation and low-voltage driving. We evaluated the performance of the lens using a homemade 5.5-MHz planar transducer with a 7.5-mm aperture. Our results demonstrate that the planar ultrasound beam can be adjusted to a focused beam with a focal length from 27 mm to 32 mm within 1 s by increasing the electric input (0–60 V) to the lens. Additionally, the beam angle of the ultrasound is tunable from −5 to 5° by adjusting the charge distribution on the lens. Our design enables real-time, fast-response, on-demand changing of focal length and beam angle for a single-element planar transducer. Our study presents a promising technology for altering the ultrasound beam of a planar single-element transducer for different ultrasound applications. The development of this electrically-controlled liquid lens has the potential to enhance the efficacy of focused ultrasound treatment and improve patient outcomes.
AB - Focused ultrasound is an increasingly popular non-invasive treatment modality. Still, its fixed focal point requires an array ultrasound transducer or scanning system to cover different therapeutic scenarios. To address this limitation, we developed an electrically-controlled liquid lens that enables dynamic beam focusing and steering of the incident plane ultrasound beam. The lens was carefully optimized for low-energy attenuation and low-voltage driving. We evaluated the performance of the lens using a homemade 5.5-MHz planar transducer with a 7.5-mm aperture. Our results demonstrate that the planar ultrasound beam can be adjusted to a focused beam with a focal length from 27 mm to 32 mm within 1 s by increasing the electric input (0–60 V) to the lens. Additionally, the beam angle of the ultrasound is tunable from −5 to 5° by adjusting the charge distribution on the lens. Our design enables real-time, fast-response, on-demand changing of focal length and beam angle for a single-element planar transducer. Our study presents a promising technology for altering the ultrasound beam of a planar single-element transducer for different ultrasound applications. The development of this electrically-controlled liquid lens has the potential to enhance the efficacy of focused ultrasound treatment and improve patient outcomes.
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U2 - 10.1016/j.ultras.2023.107147
DO - 10.1016/j.ultras.2023.107147
M3 - Article
C2 - 37651840
AN - SCOPUS:85169836356
SN - 0041-624X
VL - 135
JO - Ultrasonics
JF - Ultrasonics
M1 - 107147
ER -