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Field
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for electrochemical cells and stacks FEM simulation to investigate seal compression Manufacture of seals on a CNC dispenser and subsequent characterization What you bring to the table Studies in the field of mechanical
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collaborators. The activities will include: • Electromagnetic modeling and numerical simulations (e.g., FDTD, FEM) • Design of metasurface architectures based on dielectric materials available at CRHEA
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first: integrating sustainability into microbiology labs. FEMS Microbiol Ecol. 17;100(7):fiae084. doi: 10.1093/femsec/fiae084. Kelly FJ (2023) How can we reduce biomedical research’s carbon footprint
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(e.g., FDTD, FEM, RCWA) Experience with data analysis tools such as Python or MATLAB Experience with 2D materials, polaritonic systems, or anisotropic optical media Experience with near-field optical
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/simulation/optimization) Build prototypes and research software (clean, reproducible, well-documented) Work with simulation pipelines (e.g., FEM/CFD/physics engines) and industrial data Collaborate with
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numerical simulation (FEM), data science Interest in additive manufacturing Programming experience in Matlab/Python Optional: Practical experience in the use of measurement technology/production machines
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collaborators. The activities will include: • Electromagnetic modeling and numerical simulations (e.g., FDTD, FEM) • Design of metasurface architectures based on dielectric materials available at CRHEA
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solid understanding of solid mechanics, continuum mechanics and material behaviour. Proficiency in programming (e.g., Python) and experience with numerical methods (e.g., FEM) are desirable. Familiarity
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1990, EN 1992, 1993, 1994 Experience with nonlinear FEM, preferably Abaqus, GMNIA Interest in combining laboratory and numerical research Language Requirements: Applicants must demonstrate at least B2
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III-V (AlGaAs or InP) semiconductors and SiN photonic platforms Strong background in nonlinear optics or integrated laser physics Experience with photonic device design (e.g., Lumerical, FDTD/FEM tools