2022
DOI: 10.3390/bios12080624
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Biomechanical Sensing Using Gas Bubbles Oscillations in Liquids and Adjacent Technologies: Theory and Practical Applications

Abstract: Gas bubbles present in liquids underpin many natural phenomena and human-developed technologies that improve the quality of life. Since all living organisms are predominantly made of water, they may also contain bubbles—introduced both naturally and artificially—that can serve as biomechanical sensors operating in hard-to-reach places inside a living body and emitting signals that can be detected by common equipment used in ultrasound and photoacoustic imaging procedures. This kind of biosensor is the focus of… Show more

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Cited by 7 publications
(11 citation statements)
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“…To provide an intuitive example of how a liquid-based system might implement the standard ESN algorithm, let us consider a mm-sized bubble in a bulk of water (Figure 4c). When the bubble is irradiated with a sound pressure wave, it harmonically oscillates, i.e., it periodically inflates and deflates while maintaining a spherical shape [99][100][101][102]. The natural frequency of such oscillations is associated with the Minnaert resonance [103] that occurs at the frequency given by the well-known formula…”
Section: Physical Reservoir Computing and Its Connection To Analogue ...mentioning
confidence: 99%
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“…To provide an intuitive example of how a liquid-based system might implement the standard ESN algorithm, let us consider a mm-sized bubble in a bulk of water (Figure 4c). When the bubble is irradiated with a sound pressure wave, it harmonically oscillates, i.e., it periodically inflates and deflates while maintaining a spherical shape [99][100][101][102]. The natural frequency of such oscillations is associated with the Minnaert resonance [103] that occurs at the frequency given by the well-known formula…”
Section: Physical Reservoir Computing and Its Connection To Analogue ...mentioning
confidence: 99%
“…where the polytropic exponent of the gas trapped inside the bubble is κ = 4/3, P a is the pressure in the bulk of the liquid outside the bubble, R 0 is the equilibrium radius of the bubble and ρ is the density of the liquid. In this formula, the surface tension and the effect of the viscosity of the liquid are neglected due to their insignificant impacts on the oscillation frequency of mm-sized bubbles [101,102].…”
Section: Physical Reservoir Computing and Its Connection To Analogue ...mentioning
confidence: 99%
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