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within the acoustofluidics field and our fundamental experimental studies on acoustic forces acting on microparticles in microchannels. The research is closely linked to the research at the medical faculty
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electronic equipment and instrumentation. Familiarity with Microsoft Office Software. Ability to use a variety of custom built robotic, acoustic, and ultrasonic instrumentation. Ability to adapt, modify, and
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, with particular emphasis on marine physics and acoustics, and will actively contribute to the development of the research profile of the unit. The position involves publishing research results in
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, white papers, and other materials that support research development and philanthropic engagement. Required Qualifications Ph.D. in terrestrial ecology, biology, acoustics, wildlife science, or a closely
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University of North Carolina at Chapel Hill | Chapel Hill, North Carolina | United States | 4 days ago
base disorders, including hearing loss, vestibular dysfunction, chronic ear disease, acoustic neuromas, and other tumors of the cerebellopontine angle. The candidate should have a strong interest in
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telemetry, including vibration and acoustic data sampled at tens of kilohertz, yet they are typically deployed in remote onshore or offshore locations with narrow, failure-prone communication channels
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an inclusive community of dedicated problem-solvers who hold themselves – and one another – to the highest academic and professional standards. To learn more about us, please visit https://seas.harvard.edu
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well as acoustic disturbances in the infrasound band. The positions focus on developing, characterizing, and deploying next-generation infrasound and seismic sensors to characterize and suppress these environmental
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that respond to electrical, electromagnetic, acoustic and biochemical cues to achieve wireless, real-time control of therapeutic protein expression and metabolic regulation. Leveraging innovative platforms
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to electrical, electromagnetic, acoustic and biochemical cues to achieve wireless, real-time control of therapeutic protein expression and metabolic regulation. Leveraging innovative platforms such as direct