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We invite applications for several PhD positions in experimental quantum computing with superconducting circuits. You will work in the stimulating research environment of the Wallenberg Centre
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circuits to implement Ising machines participate in innovative training modules, including a series of hands-on workshops that provide technical, transferable and presentation skills, international
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advantageous. Familiarity with mathematical modelling of power electronics circuits is also desirable. Funding Further information and other funding options . Informal Enquiries: s.neira@ed.ac.uk
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provides access to advanced CAD tools, integrated circuit prototyping, and technical training, equipping students with cutting-edge skills. To support hands-on experimentation and applied research, the IVHM
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manipulation, neural connectomics, and amortised inference, the lab studies small neural circuits’ organisation, structure, and function. The goal is to identify the biological and physical “cost” functions
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circuits, making these techniques particularly promising for early quantum applications. You will investigate techniques for the construction of random unitaries based on random quantum circuits and study
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CMOS circuits with real or simulated qubit systems. Understand the specific requirements and constraints of interfacing with qubits (control fidelity, noise sensitivity, power dissipation, etc
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technology, the circuit design of the OLED integration, testing, assembly and interconnection technology to the development of the complete system and application. Here, we are working in the interdisciplinary
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We are looking for a PhD student to join our cutting-edge research in nanoelectronics for terahertz applications. You will explore advanced semiconductor devices and circuits, shaping the future
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). These materials have shown potential in enhancing tritium release from lithium-tritide (Li/LiT) mixtures. However, issues such as cracking and short-circuiting during prolonged operation at high temperatures hinder