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Dynamic Ultrasound Projector Controlled by Light.

Zhichao MaHyungmok JohDonglei Emma FanPeer Fischer
Published in: Advanced science (Weinheim, Baden-Wurttemberg, Germany) (2022)
Dynamic acoustic wavefront control is essential for many acoustic applications, including biomedical imaging and particle manipulation. Conventional methods are either static or in the case of phased transducer arrays are limited to a few elements and hence limited control. Here, a dynamic acoustic wavefront control method based on light patterns that locally trigger the generation of microbubbles is introduced. As a small gas bubble can effectively stop ultrasound transmission in a liquid, the optical images are used to drive a short electrolysis and form microbubble patterns. The generation of microbubbles is controlled by structured light projection at a low intensity of 65 mW cm -2 and only requires about 100 ms. The bubble pattern is thus able to modify the wavefront of acoustic waves from a single transducer. The method is employed to realize an acoustic projector that can generate various acoustic images and patterns, including multiple foci and acoustic phase gradients. Hydrophone scans show that the acoustic field after the modulation by the microbubble pattern forms according to the prediction. It is believed that combining a versatile optical projector to realize an ultrasound projector is a general scheme, which can benefit a multitude of applications based on dynamic acoustic fields.
Keyphrases
  • high resolution
  • deep learning
  • mass spectrometry
  • computed tomography
  • multiple sclerosis
  • optical coherence tomography
  • magnetic resonance
  • ms ms
  • ultrasound guided
  • convolutional neural network
  • room temperature