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to the space-based LISA observatory. The research will advance post-Newtonian waveform modelling through improved analytical techniques, incorporate strong-field information from numerical relativity simulations
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implementation of numerical models for the simulation of wave propagation from weather-tsunamis and on the development and implementation of hydrodynamic models (2D/3D) for the simulation of the transport
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model tests on granular flows.PhD position 2# is supported by an Advanced Grant of the European Research Council (ERC). The ideal candidate will focus on constitutive modelling and numerical simulations
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and teaching excellence and a highly collaborative culture. New faculty will be encouraged to also participate in numerous prominent UAB Centers and Institutes: https:// www.uab.edu/research/home
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for strengthening activities in relation to their specific expertise (e.g., computational imaging, deep learning, numerical optimization) Where to apply Website https://concorsi.unige.it/home Requirements Additional
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-frequency signal processing elements (< 1 GHz), such as electro-optic modulators and integrated photodetectors. The research activities involve the numerical study of the analyzed components at both
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mathematics, Earth science, or a related discipline Skills in numerical modelling, programming, and handling large datasets Prior experience in machine learning is desirable Interest in nonlinear dynamics and
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of multi-physics and mixed-dimensional PDEs. The goal of the research is the development and analysis of computational methods combined with model order reduction methods, including data-driven ones
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of quantum gases; Anderson problem - Numerical simulations of disordered and chaotic quantum dynamics This postdoctoral project focuses on studying a newly observed subdiffusive transport mechanism in
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physically based constitutive models for predicting the mechanicalresponse of composites. Development of numerical techniques for multi-scale and multi-physics analysis. Simulation of laboratory tests