Miscible fluids patterning and micro-manipulation using vortex-based single-beam acoustic tweezers
Abstract
Vortex-based single-beam tweezers have the ability to precisely and selectively move a wide range of objects, including particles, bubbles, droplets, and cells with sizes ranging from the millimeter to micrometer scale. In 2017, Karlsen and Bruus [Phys. Rev. Appl. 7, 034017 (2017)] theoretically suggested that these tweezers could also address one of the most challenging issues: the patterning and manipulation of miscible fluids. In this paper, we experimentally demonstrate this ability using acoustic vortex beams generated by interdigital transducer-based active holograms. The experimental results are supported by a numerical model based on acoustic body force simulations. This work paves the way for the precise shaping of chemical concentration fields, a crucial factor in numerous chemical and biological processes.
Keywords
Cite
@article{arxiv.2409.18966,
title = {Miscible fluids patterning and micro-manipulation using vortex-based single-beam acoustic tweezers},
author = {Samir Almohamad and Gustav Modler and Ravinder Chutani and Udita Ghosh and Henrik Bruus and Sarah Cleve and Michael Baudoin},
journal= {arXiv preprint arXiv:2409.18966},
year = {2024}
}