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Wilson BG, Fan Z, Sreedasyam R, et al. Single-shot interferometric measurement of cavitation bubble dynamics. Opt Lett. 2021;46(6):1409-1412doi: 10.1364/OL.416923.
Wilson, B. G., Fan, Z., Sreedasyam, R., Botvinick, E. L., & Venugopalan, V. (2021). Single-shot interferometric measurement of cavitation bubble dynamics. Optics letters, 46(6), 1409-1412. https://doi.org/10.1364/OL.416923
Wilson, Bryce G, et al. "Single-shot interferometric measurement of cavitation bubble dynamics." Optics letters vol. 46,6 (2021): 1409-1412. doi: https://doi.org/10.1364/OL.416923
Wilson BG, Fan Z, Sreedasyam R, Botvinick EL, Venugopalan V. Single-shot interferometric measurement of cavitation bubble dynamics. Opt Lett. 2021 Mar 15;46(6):1409-1412. doi: 10.1364/OL.416923. PMID: 33720199.
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Opt Lett. 2021 Mar 15;46(6):1409-1412. doi: 10.1364/OL.416923.

Single-shot interferometric measurement of cavitation bubble dynamics.

Optics letters

Bryce G Wilson, Zhenkun Fan, Rahul Sreedasyam, Elliot L Botvinick, Vasan Venugopalan

PMID: 33720199 DOI: 10.1364/OL.416923

Abstract

We demonstrate an interferometric method to provide direct, single-shot measurements of cavitation bubble dynamics with nanoscale spatial and temporal resolution with results that closely match theoretical predictions. Implementation of this method reduces the need for expensive and complex ultra-high speed camera systems for the measurement of single cavitation events. This method can capture dynamics over large time intervals with sub-nanosecond temporal resolution and spatial precision surpassing the optical diffraction limit. We expect this method to have broad utility for examination of cavitation bubble dynamics, as well as for metrology applications such as optorheological materials characterization. This method provides an accurate approach for precise measurement of cavitation bubble dynamics suitable for metrology applications such as optorheological materials characterization.

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