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Field
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for controlling protein levels and guiding development. In the Ruijtenberg lab, we study these mechanisms using a combination of genome-wide sequencing and single-molecule imaging approaches, aiming to understand
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wing panels. Reliable process control is critical: underheating leads to poor bonding, while overheating causes polymer degradation. At the heart of process control algorithms lies a physics-based
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optics, magnetic resonance and nanoscale fabrication to detect and control individual spins associated to defect centers. With these controlled systems of coupled spins, we aim to answer questions such as
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behaviour under controlled light and visual environments. This will allow you to explore the underlying mechanisms that shape swarming rules and to validate your field-based findings. The broader aim
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their applications for quantum science and technology. We use a combination of quantum optics, magnetic resonance and nanoscale fabrication to detect and control individual spins associated to defect
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elements with controllable stiffness. The project will involve analytical and computational modelling, as well as designing and conducting lab experiments. Key questions include: How to create materials
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. Excellent communication skills and a strong command of the English language. Be at ease engaging with scientists from different fields (engineering, robotics, ICT, SSH, etc.) and cultures, to maximise
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master’s degree in history, philosophy, French Studies, political thought or a related field by 1 October 2025; Good passive and active command of the French language Professional proficiency in English; An
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active command of the French language Professional proficiency in English; An ability to work both independently and as a team member A demonstrable interest in academic research and a strong drive to grow
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development and its feasibility test, the PhD candidate will also design medical research experimental protocol for both healthy control population and target patient population, apply for the protocol’s