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Doctoral student in development of nanowire devices for photonic neuromorphic computing (PA2026/472)
on optoelectronic architecture, sensor geometries and algorithms and integration with advanced waveguiding platforms. Work duties You will primarily devote yourself to your doctoral education, which mainly consists
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XFEL. About your role: Application of storage-ring and FEL-based X-ray scattering methods to BlueMat topics (such as role of confined geometries on structure and dynamics on liquids) In particular
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Python with PyTorch (or equivalent deep learning framework). Experience with computer vision workflows (e.g., pose estimation, segmentation, tracking, multi-view geometry, 3D vision). Strong software
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The Hamburg Centre for Ultrafast Imaging (CUI), Cluster of Excellence | Hamburg, Hamburg | Germany | 2 months ago
project of the groups of Prof. Dr. Markus Drescher and Prof. Dr. Klaus Sengstock. The project involves generating ultracold rubidium atoms arranged in arbitrary geometries using optical tweezer technology
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Infrastructure? No Offer Description This project is part of the European ERC Synergy project Karst https://erc-karst.eu/ , which aims to develop a predictive flow model for an entire karst network. We will
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, public authorities in their decisions and businesses in their strategies. Do you want to know more about LIST? Check our website: https://www.list.lu/ How will you contribute? You will develop a multi
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Innovative electrical interfaces for solid-state electrocaloric cooling using ferroelectric ceramics
into heat flux. The objective of the project is to propose innovative, gas-free approaches for cooling device. The project encompasses 1) the material and geometry tailoring for enhancing thermal
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at low Reynolds numbers, considering various configurations (e.g. cylinder size, flow orientation, array geometry, natural vibration frequency of springs). In the second year, you will extend the analysis
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University of North Carolina at Chapel Hill | Chapel Hill, North Carolina | United States | 28 days ago
practices with: * Facility wiring, grounding and interconnect * RF and High Voltage Safety * Network security * Electronic theory * Electronic mathematics and formulas * Arithmetic, geometry and algebra
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of the fastest worldwide due to its unique geometry and beam characteristics. It allows ultra-fast in-situ measurements as well as highest spatial and density resolution. Additionally, the highly coherent beam