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qubits, making use of their coupling to high-impedance resonators. Quantum dots and hole spin qubits in planar Germanium offer unique advantages for quantum information processing, including longer
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electromagnetic antenna structure [4] to concentrate the THz field and access antiferromagnetic resonance at a reduced scale. In addition, we will take advantage of the so-called inverse spin Hall effect occurring
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techniques for quantum dot spin qubits, making use of their coupling to high-impedance resonators. Quantum dots and hole spin qubits in planar Germanium offer unique advantages for quantum information
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magnetic dielectrics (to explore gap resonances directly within magnetic cavities). - Type of assemblies: different configurations of nanocube assemblies will also be studied. Initial studies will focus
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precision are required for applications ranging from nano-electronics to medical imaging. Colour centre defects in the two-dimensional semiconductor hexagonal boron nitride (hBN) have atom-like electronic
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(£19,237 for 2024/25). Electron Paramagnetic Resonance (EPR) is a magnetic resonance method that can be used to study any systems containing unpaired electrons. In recent years the application
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on the quest to improve the sensitivity and ease of use of magnetic resonance spectroscopy. The proposed projects aim to mitigate the adverse effects of hardware properties of (ultra)fast-spinning MAS probes
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-induced in-situ Electron Paramagnetic Resonance (EPR) studies are a growing field in both continuous wave and pulsed EPR. It can be used to monitor photoactivated chemical and biochemical reactions
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for delving into the intricate workings of the brain or spin- and charge-dynamics at the molecular scale? The section for quantum physics and information technology (QPIT) at the Department of Physics
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on the development and construction of a near-field imaging tool for electron paramagnetic resonance (EPR) spectroscopy based on quantum circuit technology. The objective of the project is to detect and characterize