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generative surrogate models for molecular dynamics (MD). MD is a foundational technology across the sciences and engineering, with translational applications in areas such as drug discovery and materials
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of application areas include dynamically tuneable metasurfaces, reflective displays, and radiative cooling. The working language is English. Our research group belongs to the Laboratory of Organic Electronics (LOE
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whereas in others the function of a complete gas turbine is analyzed and modelled. The Division of Fluid Dynamics is part of Chalmers Sustainable Transport Initiative, Chalmers eScience Initiative and
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the specific organization and spatiotemporal dynamics within MSA. This will open up opportunities for co-developing multispecies governance approaches with representatives of governance bodies and identifying
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by a EU programme Is the Job related to staff position within a Research Infrastructure? No Offer Description Join us to pioneer next-generation generative models that accelerate molecular dynamics. We
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range of topics. In some research projects the smallest turbulent scales are studied whereas in others the function of a complete gas turbine is analyzed and modelled. The Division of Fluid Dynamics is
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, theory and modelling. The position will be placed at the division of Applied Chemistry in the group of Diana Bernin. Our group is multidisciplinary and you will be part of a dynamic working environment
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, theory and modelling. The position will be placed at the division of Applied Chemistry in the group of Diana Bernin. Our group is multidisciplinary and you will be part of a dynamic working environment
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spatial point process models for the emergence and arrangement of objects (including birth-death dynamics, merging, and non-overlap constraints) with methods from shape analysis, in particular stochastic
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is close. Our cohesive campuses make it easy to meet, work together and exchange knowledge, which promotes a dynamic and open culture. The ongoing societal transformation and large green investments in