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, are needed. Specific expertise can focus on modelling of e.g., polymer, biomolecular systems, or colloidal systems. We work at both atomistic and coarse-grained modelling levels and appreciate multiscale
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deformation in situ. Nat. Mater. 23, 20–22 (2024) [2] Erbi, M. et al., Tuning elastic properties of metallic nanoparticles by shape controlling: From atomistic to continuous models, Small, 2302116 (2023) [3
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different types of simulations at different scales. For the atomic level, you will use atomistic molecular dynamics simulations, which are so expensive computationally that supercomputers are needed
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nonequilibrium conditions at different length and time scales. Complementary, the candidate will be involved in the comparison between experiments and molecular dynamics simulations of the atomistic dynamics
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. As a member of the Stenlid lab, you will be exposed to a broad range of computational methodologies, ranging from atomistic and electronic-structure–based materials modeling and characterization, via
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learning-based atomistic simulations to predict (electro)chemical reaction pathways 2. Designing and implementing multi-scale electrochemical simulations combining elementary reaction mechanisms with multi
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for combining optical/microwave spin manipulation with the atomistic control afforded by chemistry, and therefore realising a versatile platform for entanglement generation and quantum sensing. The role. Through
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: Condensed matter, including quantum, magnetic and photonic materials. Soft materials, including active and living matter. We are open to a wide variety of computational methodologies, including atomistic
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. Soft materials, including active and living matter. We are open to a wide variety of computational methodologies, including atomistic, molecular and mesoscale level particle-based techniques, continuum
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broad experience in the development of electronic structure methods and their application in order to perform atomistic simulations of molecules and materials. These include (but are not restricted