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to maximise the change in acoustic response upon binding. The long-term objective is to enable acoustic discrimination between bound and non-bound microbubbles through the combined design of microbubbles and
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to explore systems in which light (near-infrared) and acoustic phonons (20–300 GHz) can be confined simultaneously. Numerical simulation and optimization of acoustic and optical resonators Design and
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Translationnelle et Innovation en Médecine et ComplexitéCountryFranceCityLA TRONCHEGeofield Contact City LA TRONCHE Website http://www-timc.imag.fr STATUS: EXPIRED X (formerly Twitter) Facebook LinkedIn Whatsapp
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such as protecting embedded systems from vulnerabilities rooted in sensor physics, studying the impact of physical signals (e.g., acoustics, lasers, electromagnetic emissions) on AI and sensing systems, and
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-invasive installation, traditional single-element designs suffer from limitations in accuracy, stability, and flexibility. As we have demonstrated in prior research, matrix ultrasonic transducers in
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nanotechnology innovation hub. Where to apply Website https://app.jobvite.com/j?aj=oO84yfwi&s=Euraxess Requirements Research FieldPhysicsEducation LevelPhD or equivalent LanguagesENGLISHLevelExcellent Additional
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such as protecting embedded systems from vulnerabilities rooted in sensor physics, studying the impact of physical signals (e.g., acoustics, lasers, electromagnetic emissions) on AI and sensing systems, and
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their acoustic and thermal properties Developing and optimizing numerical models to simulate the performance of thermoacoustic microdevices Designing, fabricating, and experimentally testing prototype
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JOB SUMMARY The Physiological Acoustics Lab (http://escabilab.uconn.edu) at the University of Connecticut seeks applicants for a postdoctoral position in systems and computational neuroscience
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syndrome. This project involves experts in the design and biological characterization of various organ-on-chip systems and benefits from the laboratory's platforms (https://bmbi.utc.fr/recherche/meta