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, cytosol). This project will use coarse-grained molecular simulations, complemented by in-house experimental validation, to gain molecular insights in the controlled system assembly and disassembly. Our goal
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-fast, low-energy optical interconnects in collaboration with Microsoft and two Finnish SMEs. The project focuses on development new optomechanical control methods for macroscopic quantum states of light
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qualitative research methods is required. The project language is English and the applicants should have an excellent command of the English language, written and spoken. Applicants must be able to work
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prerequisite. Data collection will take place in Norway and the candidate must have good written and oral skills in Norwegian or another Scandinavian language. The candidate must have a good command of English
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management measures, with model calibration and validation using observational data. You will test the representation of various water management measures in the model (e.g., weirs, controlled drainage
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systems such as fuel cells and batteries. Intelligent control and management systems will be designed to enhance efficiency, sustainability, and seamless integration. Developed models and strategies will be
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command of written and spoken English (C1 level) Excellent abilities to work in a team and excellent communication skills Experience in ISM research, and in particular, Milky Way Supercloud research, is a
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providing quality control or process optimization for electron microscopy in an industrial environment. Experience bringing electron microscopy to industrial application. Experience leading projects
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the above list of PhD projects or individual research projects). Incomplete applications will not be considered. You may apply prior to obtaining your master's degree but cannot begin before having received
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to their potential for electrical control of quantum phenomena. The ultimate goal of this PhD project is to design of functional multiferroic superconductors by combining superconducting, magnetic, and ferroelectric