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biological supramolecular structure and enable a completely new interface between biology and electronics. The goal is decipher the molecular structure of these fibers and elucidate the electron transport
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due to its capability to visualise internal structures. Recently, dynamic quantification of moving and/or deforming structures using X-ray imaging has also become possible. Workflows such as X-ray
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on seismic isolation & control, which is also the primary commitment of the University of Antwerp towards the ETpathfinder project. This involves contributions to the construction, installation, and
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imaging is a powerful method for analysing functional morphology due to its capability to visualise internal structures. Recently, dynamic quantification of moving and/or deforming structures using X-ray
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well as motion capture scanning facilities. Structured support for your next career steps, whether in academia or industry. For example, the successful candidate will receive help and support for securing follow
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to the construction, installation, and commissioning of position sensors, actuators, mirror tower suspensions, and local control loops. During the second phase of the project you will use your obtained experience in