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to the viscoelastic behavior of polymeric foams under large deformations dynamic loadings. The objective is to simulate, using the finite element method, the response of these porous microstructures under complex
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cover will be constrained using Raman spectroscopy of carbonaceous material (RSCM method), complemented by bottom-hole temperatures (BHT) and heat flow data to define present-day thermal gradients
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of nucleoporins (Nups) and the formation of NPCs. - He/she will implement experimental approaches combining cell biology, advanced microscopy, and biochemical methods to characterize the regulatory pathways
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matter gravity simulators, enabling the identification of exotic properties of relativistic materials. Use of various theoretical methods to study the effects of field theory properties in curved spacetime
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on extending methods for detecting the pose of an object (possibly occluded, even if only partially) held by a person to 360-degree robot vision, in line with mesh detection and biomechanical variables
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for a duration of six years. NumPEx contributes to the design and the development of numerical methods, software components and tools that support future productive European exascale and post-exascale
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for metals in materials science, such as: Processing methods, • Heat treatments, • Phase transformation studies, • Understanding mechanical properties through microstructure/property correlations, in situ
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therefore to build up a database of these kind of events (both numerically and experimentally). To experimentally investigate turbulent flows, the SPHYNX team at SPEC build over several decades and has