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great setting for pursuing novel research ideas and developing your independent career. Your Profile We are looking for a highly motivated, determined, curious, and collaborative PhD student to conduct
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research environment with a strong scientific and social network for students and postdocs and good mentoring opportunities to support individual career development. You will have access to state-of-the-art
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by Printing and etworked Robots” (AM2PM). The goal of AM2PM is to develop and experimentally validate a complex digital infrastructure that integrates sustainable material design, computational
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Job Description Are you passionate about designing ultra-low-power electronics for neural and wearable systems? Do you want to develop custom CMOS circuits that serve as the foundation
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of the biggest challenges is the development of efficient, scalable, and low-noise control electronics that operate at cryogenic temperatures. This PhD project addresses this challenge by designing CMOS-based
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develop experimental research performing magneto-optical spectroscopy combined with electronic transport to investigate light-matter interactions in 2D materials. Our goal is to access and control new
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magnetic composite materials. We will investigate nano-structuring to realize a strong permanent magnet using our state-of-the-art open source micromagnetic model, MagTense, which you will help develop
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multidisciplinary research initiative focused on developing intelligent assistive technologies driven by brain-inspired computing. The broader goal of the project is to enable seamless interaction between humans and
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Department of Law who will cooperate in the Centre for Security and Humanitarian Law, which serves as an interdisciplinary framework for the development of ideas and research. Associate Professor Tonny Brems
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student to work on the development of new theoretical frameworks for describing light–matter interactions in advanced nanostructures probed by polaritons generated through inelastic electron tunneling