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Field
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environment with strong links to both industry and European collaborative projects. Project description You will lead the development of a system-level noise model for ducted fans and propellers, with
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appointed through the Office of Postdoctoral Affairs. The FY25 minimum is $76,383. The research will consist in characterizing the noise, drift, and sensitivity to rotation of a three-axis resonant laser
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/ Psychology and Neuroscience. City: New Brunswick State: NJ Physical Demands and Work Environment: Physical Demands: No physical demands Work Environment: No significant exposure or noise levels. Office
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: Laboratory environment. Moderate noise. Exposure to blood, excrement, antineoplastic drugs, and possible exposure to infectious and communicable diseases. Universal precautions are mandatory. Exposure
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hearing. No special vision requirements. Lifting up to 25 lbs. WORK ENVIRONMENT: Laboratory work environment, with moderate noise. Exposure to biological specimens (cells, blood, tissues, etc.) with
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role which has the potential to contribute to the development of open source software. Vibrational modes in solids (phonons) affect fundamental physical properties such as the conduction of heat and
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experience severe speech-in-noise difficulties, likely due to disrupted neural synchrony and impaired transmission along the auditory pathway [3], [4]. This research will integrate modeling and empirical ABR
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ultrahigh vacuum (UHV) surface science facilities enable: (i) measurements of surface composition, structure, and thermal stability using AES, LEIS, XPS, and vibrational spectroscopy; (ii) quantitative
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fundamental mechanisms of gene regulation, and transcriptional circuits including gene-regulatory networks, feedback regulation, and regulation of stochastic expression noise in multiple model systems ranging
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quantum dots. Investigations of principles of qubit operations, noise effects on qubit fidelities, and designs of improved and robust qubits. The topic will require knowledge of semiconductor physics, group