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structure, dynamics, and switching mechanisms at the nanoscale, including optical manipulation of polarization states. Design and execution of experiments demonstrating optical control of ferroelectric
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Your Job: Digital methods for inverse materials design are essential to efficiently create new, sustainable and recycling-adapted structural metals. Alloys with a reduced number of elements, so
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an inspiring environment for both teaching and learning, within an atmosphere of collaboration and excellence. At GTCC, you'll be part of a supportive, dynamic, and inclusive culture committed to delivering
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electrocatalysts. Main Tasks and responsibilities: The PhD position is framed within the MAIAMI project. The student will work on DFT and molecular dynamics simulations, generating structural and electronic
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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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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