1. A Unique Time-Reversal Algorithm-Enabled Flexible Ultrasound Transducer with a Controllable Acoustic Field.
- Author
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Jia, Lu, Yan, Yingzhan, Xu, Jing, and Gao, Yuan
- Subjects
- *
ACOUSTIC field , *ACOUSTIC transducers , *PIEZOELECTRIC materials , *DEFORMATIONS (Mechanics) , *SIGNAL detection - Abstract
Flexible ultrasonic devices represent a feasible technology for providing timely signal detection and even a non-invasive disease treatment for the human brain. However, the deformation of the devices is always accompanied by a change in the acoustic field, making it hard for accurate focusing. Herein, we report a stable and flexible transducer. This device can generate a high-intensity acoustic signal with a controllable acoustic field even when the device is bent. The key is to use a low-impedance piezoelectric material and an island-bridge device structure, as well as to design a unique time-reversal algorithm to correct the deviation of signals after transcranial propagation. To provide an in-depth study of the acoustic field of flexible devices, we also analyze the effects of mechanical deformation and structural parameters on the corresponding acoustic response. [ABSTRACT FROM AUTHOR]
- Published
- 2024
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