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focus on two main lines of research. The first concerns the modeling of general dark matter–electron interactions in detector materials. This will be achieved by combining methods from particle and solid
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-edge research in particle physics and quantum field theory, while collaborating with leading experts worldwide. About us The High-Energy part of the Theoretical Subatomic Physics group performs research
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on two main lines of research. The first concerns the modeling of general dark matter–electron interactions in detector materials. This will be achieved by combining methods from particle and solid state
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internationally recognized team at Chalmers University of Technology and contribute to cutting-edge research in particle physics and quantum field theory, while collaborating with leading experts worldwide. About
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Are you passionate about advancing high-energy physics? Join our internationally recognized team at Chalmers University of Technology and contribute to cutting-edge research in particle physics and
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Advance Nano , a community within Chalmers based on joint interest in research on the unique chemical and physical phenomena that occur at very small dimensions. Project overview Novel materials
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inorganic solids. You will join a collaborative and international research environment with access to world-class facilities. This recruitment is connected to Area of Advance Nano , a community within
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in modelling the systems as large clouds of interacting particles and to derive and analyse reduced models in the infinite particle limit. Often, the interaction between the particles can be modeled
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. Special focus will be put on the development of microfluidic systems based on acoustofluidic chromatography and enrichment (trapping) of submicron particles, especially biological nanoparticles such as
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work in a project focusing on crystallization of calcium carbonate in the presence of nano- and microplastics that exist in the Baltic Sea environment. Calcium carbonate is an important component of