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Group, https://www.chalmers.se/en/departments/e2/research/communications-antennas-and-optical-networks/communication-systems/ , employing around 45 people, including 8 faculty and 25 PhD students. During
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synthetic dimensions in molecules confined in rotationally magic traps and (2) the creation of many-body quantum states of molecules in optical lattices for quantum simulation (3) the production of strongly
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Quantum and Low-Dimensional Materials Quantum Communications, Sensing & Simulation Quantum Optics & Quantum Information Nanophotonics, Condensed Matter Physics & Light-Matter Interactions Medical Optics
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Join us at the Hybrid Quantum Systems Laboratory to couple atoms to photonic integrated circuits. If you are interested in advancing quantum metrology, simulation and computing, this is for you
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(time-course and quantity of gaze/eye-movements), neuro-physiology of language processing in the brain and neuro-imaging (https://www.ntnu.edu/langdevlab#/view/publications ). The main responsibility
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will also participate to the development of an experimental setup and procedures allowing characterizing optical properties of transparent ceramics (including UV-Vis spectroscopy and light scattering
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approximation and finitie-element methods to simulate the optical response of assemblies of particles (field enhancement, scattering,...) - evaluate metrics of the devices (encoding capacity, Hamming distances
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in all areas of quantum science and technology including, but not limited to, quantum information, photonics, quantum optics, cold atoms, neutral atoms, trapped ions, solid state qubits and quantum
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computers and, as a result, many of them remain poorly understood. UItracold atoms trapped in optical lattices provide a pristine realization of the Hubbard model and hold the promise of solving many of its
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Nanotechnology Laboratory (INL) Location: Braga, Portugal Group/Unit: Quantum and linear-optical computation Number of Vacancies: 1 Employment Type: Full time Contract Duration: 48 months Open Date