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international research contexts Your Profile: Excellent Master’s degree in mechanical engineering, energy systems, computational engineering, or a related field Strong background in numerical methods and applied
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good numerical literacy in developing computer code for simulation models and for data analysis and interpretation. About the project The goal of this PhD is to model (Calanus spp.) life history traits
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of helicity-preserving scatterers (dual or quasi-dual meta-atoms) in the microwave regime. The work will involve both theoretical and numerical aspects: understanding the conditions for duality symmetry and
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analysis of the Einstein equations, analytical and numerical approaches to strong-field dynamics, relativistic and mathematical cosmology, relativistic matter dynamics in curved spacetime, nonlinear waves
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report of the courses attended on the following topics: Analysis of Partial Differential Equations, Continuum Mechanics and Fluid Dynamics, Functional Analysis, Numerical Analysis, Probability and
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maintenance, including primary responsibility for diagnosing and trouble-shooting problems and arranging repairs, and participating in the scientific analysis, interpretation, and dissemination of data and
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or nanophotonic device design Hands-on experience with cleanroom fabrication techniques (e.g., electron-beam lithography, thin-film deposition, nanostructuring) Knowledge of numerical electromagnetic simulations
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well as make recommendations Ability to work with mathematical concepts and basic methods for research and statistical analysis Ability to take initiative and independently plan, organize, coordinate, and
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regime (extreme-value analysis). The approach may also be complemented by establishing concentration inequalities and large deviation principles
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development spanning areas such as optimization, Fourier analysis, numerical linear algebra, statistics, machine learning, and high-performance computing for one or more of the following: (1) reconstruction