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features of emerging devices, e.g., qubits, memristors, spintronics, and graphene. Building such computing engines requires a full-stack interdisciplinary approach, encompassing fabrication and operation of
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engineering problems. In this project we will look at ultra-thin materials, which are at the forefront of technological development due to their extraordinary properties. Graphene, for instance, stands as the
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? The Quantum and Computer Engineering (QCE) department at TU Delft is on a mission to revolutionise computing through the exploration of emerging devices such as qubits, memristors, spintronics, and graphene
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, e.g. graphene, have gained much attention in research for their special physical properties compared to their three-dimensional counterparts. Halides or transition metal dichalcogenides in particular
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, spintronics, and graphene. Our interdisciplinary approach spans from the fabrication and operation of qubits to programming models, compilers, and simulation platforms. QCE is also home to a Network Science
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, and graphene. You thrive on conducting groundbreaking research and taking the lead in the field of quantum computing engines in the academic world. Leveraging your communication and networking skills
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features of emerging devices, e.g., qubits, memristors, spintronics, and graphene. Building such computing engines requires a full-stack interdisciplinary approach, encompassing fabrication and operation of