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, filtering, and prioritizing the vulnerabilities detected by static analysis tools. Harnessing the capabilities of artificial intelligence in analyzing code patterns, providing context-aware suggestions
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Max Planck Institute for Dynamics and Self-Organization, Göttingen | Gottingen, Niedersachsen | Germany | 1 day ago
Job Code: MPIDS-W086 Job Offer from June 23, 2025 We seek to fill one position in the research group on Turbulence and Particles in Fluids lead by Dr. Gholamhossein Bagheri and in collaboration with
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Max Planck Institute for Dynamics and Self-Organization, Göttingen | Gottingen, Niedersachsen | Germany | 4 days ago
Understanding the individual and relative motion of particles is fundamental to understanding transport processes in complex flows. Large-scale transport in atmospheric flows is well understood and measured by
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, the successful candidate will develop new approaches for the determination of particle export (e.g. with sediment traps) and particle modification with the help of biomarkers. The successful applicant will also
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04.06.2025 Application deadline: 30.06.2025 The Theoretical Particle Physics Group at the Institute for Theoretical Physics at Tübingen University invites applications for the position of a
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motility in a dense suspension of soft particles mimicking a collection of biological cells, to characterize trypanosome swimming through elastic networks with different pore sizes and elastic properties
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of XYZs, higher order perturbative calculations inside effective field theories. The particle and nuclear theory group at the TUM School of Natural science is lead by Prof. N. Brambilla and Prof. A. Vairo
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of nanoparticle formulations for heating in alternating magnetic fields. Create a magnetic heating setup to assess the performance of your materials. Integrate particles into composite materials for remote
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In the research group, we investigate how collective behaviour arises from the interaction of many similar particles or "agents", for example transport processes in porous materials or the formation
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focuses on decoding the structure and function of matter, from the smallest particles of the universe to the building blocks of life. In this way, DESY contributes to solving the major questions and urgent