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Field
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human behavior, and the need for personalization. Resource-Efficient AI: You will ensure your models are lightweight enough to run on edge devices, balancing accuracy with energy consumption and
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imaging to probe microbubble behavior and shell dynamics. The goal is to obtain a full physical understanding of the mechanisms governing the acoustic response of bound microbubbles. You will perform
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opportunity to conduct impactful field science, lead high profile analyses, and shape understanding of air–lake coupling in one of the most dynamic environments on the planet. Preferred start date: November
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is considered an advantage; The ability to conduct research independently; Excellent writing and oral communication skills in English; Dutch language skills are considered an advantage; Experience with
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behaviour remain largely enigmatic. Your work will focus on developing computational tools to bridge the gap between high-resolution magnetic observations and micromagnetic simulations. You will lead the