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clinical datasets, as well as simulate brain molecules, cells, and circuits, to deepen our understanding of brain function. These efforts aim to accelerate the discovery of novel therapeutics and uncover new
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to travel overseas to interact with scientific teams in United Kingdom. Key Responsibilities: Develop theoretical and numerical models to better describe the turbulent transport outside the separatrix, to be
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Numerical Simulations of Complex Dynamic Systems, E.g. Turbulence, Hurricane. The duty of the role is within the range of: 1) developing novel algorithms on data analyses and data mining, e.g. Large Models
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the Research Council of Norway. In this project, we will use advanced time-lapse imaging, numerical simulations, and reactive mixing theories to better understand and predict the role of fluid mixing as a driver
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the biophysical processes as droplets wet membrane compartments in cells. Numerical simulations and theoretical models will be developed of the viscous interfacial fluid flow at cellular membranes alongside
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estimated stepwise from time series of the RS images, numerical models can provide continuous predictions of drift and deformation fields. This project shall investigate how the combined use of image time
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, and societal impact, we encourage you to apply! The Person We are seeking an academic with expertise in materials science, theoretical simulation, photocatalysis, electrochemistry, or a closely related
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application consists of: An application Transcript(s) – For this opportunity, an unofficial transcript or copy of the student academic records printed by the applicant or by academic advisors from internal
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reduction techniques and numerical methods for subsurface and surface flow processes. You will gain experience with forward hydrodynamic models developed in the Coastal Hydraulics Laboratory and contribute
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on the understanding of how the biophysical processes as droplets wet membrane compartments in cells. Numerical simulations and theoretical models will be developed of the viscous interfacial fluid flow at cellular