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of sharing a quantum state. This opens possibilities for fundamental studies in remote entanglement and quantum teleportation of mechanical states, as well as ultra-sensitive detection of weak, long-range
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for micro- and nanostructures. The facilities cover a comprehensive range of equipment, including atomic layer deposition devices, electron microscopy, x-ray scattering, ellipsometry, spectroscopic equipment
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quantum computers is secured through ongoing funded projects, ensuring we can test and benchmark our methods on a broad range of state-of-the-art platforms. Aalto University also offers ample opportunities
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comprehensive range of equipment, including atomic layer deposition devices, electron microscopy, x-ray scattering, ellipsometry, spectroscopic equipment, etc. The position is full-time and initially funded
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optomechanical interaction for the polaritons and mechanical modes in GHz range. The project is carried out in close collaboration with leading experts in semiconductor cavity optomechanics in Berlin, providing