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, to fabricate computed active materials and smart structures. These advanced AM techniques offer valuable and diverse material deposition capabilities for creating 2D-to-3D shapes and shapeshifting lattice
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random and deterministic systems and point configurations. Potential applications include lattices, point processes, random matrices, and random walks on groups. During the project you will work
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/ Condensed Matter Theory , Elementary Particle Theory , Field Theory , hep , hep-lat , hep-ph , hep-th , High Energy Physics , high energy physics or mathematical physics , High Energy Theory , Lattice Field
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Metal additive manufacturing process monitoring and control – Researcher, PhD position (ERC project)
lattice structure. PBF-LB/M supports sustainability through light-weighting, easing supply chain constraints, and enables a high level of product customization. However, the PBF-LB/M process is limited by
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established. We will take advantage of lattice vibrations, nuclear quantum, and electrochemical effects, and consequently reformulate classical diffusion theory to consider these game changers. As a result, we
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model that explains lattice distortions and branching mechanisms. (4) Analyze experimental data using advanced computational tools and present results in research meetings and scientific publications
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defects induced by the connection of two crystal lattices of different geometry and orientation. We will then study the interaction of these defects with hydrogen, and their impact on hydrogen diffusion
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combs that require large and complex setups, we aim to realize them directly on chip, using liquid-like light and schemes of lattices in synthetic frequency dimensions to achieve unprecedented stability
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Condensed Matter Physics , Hard Condensed Matter Theory , hep , HEP-Experiment (hep-ex) , hep-lat , HEP-Lattice (hep-lat) , hep-ph , HEP-Phenomenology (hep-ph) , hep-th , HEP-Theory (hep-th) , High energy
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of systems such as heterostructures of two-dimensional van der Waals materials, atomically well-defined graphene nanoribbons, and artificial lattices on surfaces. The position of the Doctoral