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heritage, materials science, and physics. Supported by 19 countries, the ESRF is an equal opportunity employer and encourages diversity. Context & Job description Thesis subject: Dynamic structural
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life cycle assessment based on BIM models. • Development and structuring of a database to support dynamic life cycle assessment. • Implementation of blockchain solutions for circular products, integrated
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–matter interactions at the nanoscale, with a particular emphasis on how plasmonic excitations modifies the electronic structure of adsorbed molecular systems. For an overview of our research activity
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settings. Very good self organization. Desirable Skills Very good knowledge of fluid–structure interaction (FSI). Good experience with digital twins, model updating, or structural dynamics. Understanding
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learning methodology, electronic structure theory, and molecular dynamics methodology to simulate ultrafast chemical dynamics at surfaces and in materials. Your personal sphere of influence: As a university
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hairy surfaces and when actively driving a soft sheet near a wall. Essential to the projects is developing a new understanding of the fluid-structure interactions, that is to say, the coupling between
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degree programs offered, UT Tyler provides a wealth of learning opportunities and dynamic programs. For more information, please visit https://www.uttyler.edu/about/ . Why work for UT Tyler? Find out more
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on isolated mutations in patients with telomeric disorders Construction of KI cell lines using CRISPR-Cas9 Characterization of the telomeric phenotypes of these KI lines Characterization of the phenotypes
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the boundary layer and the turbines, but also at the center. This should shed some new light on the dissipative structures and extreme events possibly responsible for the large scale evolution of the flow
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AI for Industrial Fluid Mechanics Industrial tomography generates high-frequency electrical and vibrational signals that encode the dynamics of complex fluid–structure interactions. However, current AI