Revisiting the subharmonic route to acoustic chaos: broadband noise clearing via cavitation bubble synchronization
Revisiting the subharmonic route to acoustic chaos: broadband noise clearing via cavitation bubble synchronization
The cavitation activity within a tube transducer subject to a linearly increasing drive amplitude is studied experimentally, via high-speed imaging and parallel acoustic detection. A spectrogram of the cavitation emission signal collected over the duration of the ramped sonication, confirms a subharmonic route to chaos; the progression from harmonic emissions to broadband noise via a period-doubling bifurcation. Stroboscopic mapping demonstrates that the emergence of broadband signal is due to increasingly asynchronous bubble collapse across the population. Particular attention is given to a region of sudden broadband clearing in the spectrogram, coincident with strong subharmonic lines, approximately halfway through the sonication. The clearing is due to phase synchronization of the bubble oscillations. Broadband noise gradually re-emerges, often with further bifurcation to include period-quadrupled emissions, as oscillations dephase again following synchronization. Numerical modelling investigates the influence of amplitude ramping, inter-bubble distance and bubble dispersity on the oscillations and emissions from a 12-bubble system, based on an experimental observation. For a polydisperse system, it is found that a single bubble responding with period-2 oscillations initiates period-2 synchronization for the population, offering explanation for the consistent observation that prominent subharmonic emissions at half the driving frequency coincide with broadband clearing.
Zhang, Y.
87ef7eea-1c9a-4b95-86c6-661ddbe58088
Metzger, H.
39c166d6-4ab9-4ccf-a468-f5937b24aba5
Cammarano, A.
c0c85f55-3dfc-4b97-9b79-e2554406a12b
Prentice, P.
090a3a65-eb87-448e-b1aa-1b89982471e9
2 July 2025
Zhang, Y.
87ef7eea-1c9a-4b95-86c6-661ddbe58088
Metzger, H.
39c166d6-4ab9-4ccf-a468-f5937b24aba5
Cammarano, A.
c0c85f55-3dfc-4b97-9b79-e2554406a12b
Prentice, P.
090a3a65-eb87-448e-b1aa-1b89982471e9
Zhang, Y., Metzger, H., Cammarano, A. and Prentice, P.
(2025)
Revisiting the subharmonic route to acoustic chaos: broadband noise clearing via cavitation bubble synchronization.
Proceedings of the Royal Society A, 481.
(doi:10.1098/rspa.2025.0048).
Abstract
The cavitation activity within a tube transducer subject to a linearly increasing drive amplitude is studied experimentally, via high-speed imaging and parallel acoustic detection. A spectrogram of the cavitation emission signal collected over the duration of the ramped sonication, confirms a subharmonic route to chaos; the progression from harmonic emissions to broadband noise via a period-doubling bifurcation. Stroboscopic mapping demonstrates that the emergence of broadband signal is due to increasingly asynchronous bubble collapse across the population. Particular attention is given to a region of sudden broadband clearing in the spectrogram, coincident with strong subharmonic lines, approximately halfway through the sonication. The clearing is due to phase synchronization of the bubble oscillations. Broadband noise gradually re-emerges, often with further bifurcation to include period-quadrupled emissions, as oscillations dephase again following synchronization. Numerical modelling investigates the influence of amplitude ramping, inter-bubble distance and bubble dispersity on the oscillations and emissions from a 12-bubble system, based on an experimental observation. For a polydisperse system, it is found that a single bubble responding with period-2 oscillations initiates period-2 synchronization for the population, offering explanation for the consistent observation that prominent subharmonic emissions at half the driving frequency coincide with broadband clearing.
Text
rspa.2025.0048
- Version of Record
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Accepted/In Press date: 20 May 2025
Published date: 2 July 2025
Identifiers
Local EPrints ID: 510755
URI: http://eprints.soton.ac.uk/id/eprint/510755
ISSN: 1364-5021
PURE UUID: 225f2b19-1d14-4ca4-b9fb-e98ca451e56d
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Date deposited: 21 Apr 2026 16:42
Last modified: 22 Apr 2026 02:11
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Contributors
Author:
Y. Zhang
Author:
H. Metzger
Author:
A. Cammarano
Author:
P. Prentice
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