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experimental validation of mathematical and computational models linking individual microscopic dynamics, information propagation, and collective structures (norms, social networks, global performance
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of malaria parasites. We are especially interested in understanding the regulatory network orchestrating the original cell cycle that characterises malaria parasites and how checkpoint like decisions are made
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teams aim to increase the diversity and dynamism of data, services, interaction devices, and use cases in order to influence the evolution of software and systems to guarantee essential properties such as
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macroscopic and nanoscale investigations on perovskite thin films and optoelectronic devices, in particular solar cells, in order to understand their metastability and the associated processes occurring
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properties in order to hinder their presence. Goal of the project: • Identification of the intermediate species • Understanding their synthesis mechanisms and parameters during the fuel cycle • Presenting a
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: - Proficiency in social network analysis and data harvesting - Experience in documentary production and/or image analysis - Experience in conducting photo/video elicitation interviews - Experience with
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a maximum of six months, in order to carry out one or more phases of fieldwork in Israel, hosted by the CRFJ. The person, recruited for one year starting February 1, 2026, will carry out his or her
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sources and can host controllable spins for quantum memory and processing. Integrating spin and photonic properties enables efficient quantum networking through entanglement, while embedding these centres
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for the Raman lasers. This will improve our control over the alignment of the lasers and compensate for Coriolis acceleration. In order to improve our control over the initial position of the atoms, new PMO