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groundbreaking electron-beam lithography (EBL) methods that will redefine what is achievable in quantum device fabrication. You will push lithography resolution limits down to the quantum regime, demonstrating
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. Experience in quantum nanophotonics, quantum photonic devices, nanoscience, nanotechnology, and quantum dots is welcomed. Learn more about the project here: nikaakopian.org/multiqubit . The project is
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research sections. We broadly cover digital technologies within mathematics, data science, computer science, and computer engineering, including artificial intelligence (AI), machine learning, internet
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of the devices in the state-of-the-art DTU Nanolab cleanroom facilities using quantum dot imaging, lithography, etching and metal deposition. In both projects, the overall objective is to increase the efficiency
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electron-beam lithography (EBL) methods that will redefine what is achievable in quantum device fabrication. You will push lithography resolution limits down to the quantum regime, demonstrating
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(RF) and microwave-based heating systems for magnetic confinement plasma devices, along with a solid theoretical understanding of wave propagation in plasmas. Hands-on experience with the development
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. You need to have a proven ability to work independently and, in a group, possess excellent written and spoken English (Danish is an advantage), and display professional communication skills. Approval
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to site-owners, legal permits, and procurement of new devices in pilot work. Responsibilities and qualifications You have a PhD in Chemical Engineering or similar, and you have a strong experimental
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. Responsibilities and qualifications Environmental factors like humidity and gases impact the performance of electronic devices by causing corrosion, which is influenced by the operating parameters of electronic