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molecular dynamics simulations with LAMMPS, and data curation. Scientific context: Our current understanding of polymer viscoelasticity is founded on single-chain models [2]. Such models draw on the fact
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researchers specializing in the ecology of microalgae and cyanobacteria, and in lake monitoring), and on (ii) LAMA's skills in numerical simulation and mathematical modeling (especially researchers specializing
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systems. https://g2elab.grenoble-inp.fr/ Activities Simulate different scenarios Integrate the model Evaluate the results obtained Present the state of the art to initiate the work Collaborate with
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they interact in a bipartite network and with abiotic environmental changes - mathematical developments - coding - tests with simulations - data analyses - paper writing - presenting results
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yield stress, viscosity, and elasticity. Simplified mucus models will be employed to capture the influence of its key features, typically using Bingham-elastic or Herschel–Bulkley fluid models. The study
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and comparing them with models or simulation tools, interacting with project partners. • Writing and presenting results within the PEPR project (consortium meetings (video), project review (video and/or
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, under the task “Modeling Biological Effects”, the appointed researcher will carry out a comprehensive review of published biological evidence and mechanistic models, with a particular focus on
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insights into MCTP action and ER tubularization at PD, the post-doc will use molecular modeling and dynamics. - undertake simulations - present results in team meetings - present results as scientific
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contribute to various aspects of the project, such as: - developing new theoretical approaches to model electrode/electrolyte interfaces - performing molecular simulations, such as molecular dynamics
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will combine cutting-edge experiments led by S. Harmansa and sophisticated modelling/simulation under the guidance of A. Erlich and J. Étienne, with an aim to understand the fundamental mechanics