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communication skills and a collaborative mindset Full professional proficiency in English Good to have: Hands on experience with at least one paradigm for quantum optimization with quantum computing (QAOA
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of front-end electronics and miniature RF antennas for chronic implantation. You will prototype and characterize the wireless link (power + sensing), design and optimize sensor-resonator coupling, and
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the EU for (a) the strategic training of excellent young researchers in an emerging, interdisciplinary field and (b) the rational development of prototype devices involving doping strategies, inspired by
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using the KM3NeT detectors • Data analysis from SVOM instruments as well as images from the COLIBRI telescope • Participation in KM3NeT shifts and service tasks (calibration, construction, processing), as
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live in. Your role The successful candidate will support innovative research on 3D models and Calcium imaging: Conduct wet-lab research in melanoma, including the use of 3D models Document performed
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infrared, historically encompasses astronomy, imaging, remote sensing, chemical spectroscopy, as well as linear and nonlinear condensed matter studies. For all these applications, broadband THz sources
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simulation tools and machine learning techniques. Initially, the work will be based on the design of a database of medical images, which will be processed using convolutional neural networks to identify design
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variations or periodic signatures in radio emissions. • Application of our method to the analysis of the second half of the LoTSS-wide data, recently pre-processed (synthesis of images and dynamic spectra
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Imaging applications. The laboratory is located at the interface of Engineering Sciences and Biological Sciences. The laboratory has developed numerous interactions with research teams specialized in
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-dissipative system in which correlations of a quantum nature may naturally arise. We have built a prototype for such a cold-atom-based superradiant laser. We want to tackle the unresolved issue of sustaining