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experiments to unravel the separate and interactive effects of predation, facilitation, and competition under different environmental conditions, such as temperature, wave exposure, and freshwater. I work
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wave solvers, experience with tomographic inversion problems, and experience with image reconstruction methods for photoacoustic computed tomography and ultrasound tomography. Job Description Primary
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platform based on fully optical inelastic light-scattering methods probing thermal and non-thermal phonons/acoustic waves. This approach will provide fundamental insight into the anisotropic elastic
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. Preferred Qualifications: Experience with analyzing multi-wave longitudinal and intensive longitudinal data, including survey and biomarker data from measurement burst designs. Evidence of independent
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to explore the fundamental nature of gravity; see https://gravity.princeton.edu for more information. Candidates from all areas of research focusing on gravitational theory, including gravitational wave
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, or bioelectronic device design Experience in design, fabrication, and testing of acoustic or healthcare-related sensing platforms Knowledge of fundamental field theories, about wave control, energy focusing
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Physics , Gravitational Theory , Gravitational Wave Sources , Gravitational Waves , Gravity , hep-ph , HEP-Phenomenology (hep-ph) , hep-th , HEP-Theory (hep-th) , High Energy Physics , High Energy Theory
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, or C/C++ Perform detailed post-processing of pressure, flow, and structural response data Calibrate and evaluate 1-D engine models (e.g., gas exchange, scavenging, wave dynamics) against experimental
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of the model will largely be built on existing datasets from large scale wave flumes. These datasets will not involve actual swash zone processes, but rather measurements of coastal profile development from
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scenario. Objectives - Create forward models of the wave-interaction and crack propagation processes. - Use inversion methods to extract defect information from the scattering data. - Develop a probabilistic