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. First, you will help build a light-sheet microscope optimized for voltage imaging at the single-cell and subcellular level in live larval zebrafish. The development of this system will be supported by Dr
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understand the EUV-emitting plasma through radiation-hydrodynamics simulations Large amount of (image) data and a wide range of existing data analysis tools, allowing you to apply and develop your data
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subcellular level in live larval zebrafish. The development of this system will be supported by Dr. Emmanuel Marquez Legorreta , Dr. Ernest van der Wee , and the Biology Image Center team. Once the microscope
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and control with unprecedented sensitivity. You will carry out pioneering research at the intersection of two distinct areas of physics. You will develop a chip-based levitation system that can be
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areas of physics. You will develop a chip-based levitation system that can be embedded in state-of-the-art electron microscopes—providing a unique platform to detect electrons after interacting with
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the international level (and the development of thinking on the ethics and efficacy of using sanctions and blockades in the interest, however defined, of political aims) and one or more concrete case studies
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in the Spanish Civil War. Your PhD will focus on the interaction between the international level (and the development of thinking on the ethics and efficacy of using sanctions and blockades in
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four thematic research groups. The working environment is highly international and NIDI provides ample opportunities for training and development.
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the context of the development and use of generative AI models and systems in the media context, with a focus on AI-generated illegal and harmful content. Join us! Europe is a hub of ambitious regulatory
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imaging at the single-cell and subcellular level in live larval zebrafish. The development of this system will be supported by Dr. Emmanuel Marquez Legorreta , Dr. Ernest van der Wee , and the Biology Image