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discipline, and an interest in learning how to handle optical equipment, operate laboratory instruments and analyse data. You have a good basis in optics, laser spectroscopy and signal-processing techniques
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of gravitational-wave sources. These signals are produced by black holes and neutron stars, the compact remnants of massive stars. Many questions on how these populations form remain. To solve this puzzle, we must
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at iHub, Radboud University’s interdisciplinary research centre for digitalisation and society. It was set up in early 2019, with a mix of funding from the university board, research funding bodies and
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. Since then, the number of detections has grown rapidly: from one, to a few, to hundreds, revealing entire populations of gravitational-wave sources. These signals are produced by black holes and neutron
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spectroscopy and signal-processing techniques. Ideally, you have experience with lasers and/or spectroscopy and programming (i.e. Matlab, LabView/Python). You are a highly motivated, enthusiastic, critical