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sources and can host controllable spins for quantum memory and processing. Integrating spin and photonic properties enables efficient quantum networking through entanglement, while embedding these centres
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, the research involves participation in the design of quantum devices with our collaborators within the QLSI2 european consortium, optimization of spin readout at large scale, development of automatic control
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out in recent years using optical control by laser irradiation, notably at the XLIM laboratory but also at CEA, showing high possibilities of cycling for optical switches [9], no device incorporating
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through a set of gates, the charge carrier density in a thin, doped Si region can be controlled, enabling the fabrication of gate-tunable silicide/Si/silicide junctions. Moreover, various techniques from
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, the charge carrier density in a thin, doped Si region can be controlled, enabling the fabrication of gate-tunable silicide/Si/silicide junctions. Moreover, various techniques from CMOS technology can be
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is formed through a partnership between NCBJ (Poland), CEA (France) and VTT (Finland). NOMATEN focuses research on the characterization, analysis and development of advanced multifunctional materials
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on the development of materials and processes and is divided into two axes. The first axis aims to improve the most promising state of the art cell materials by optimizing their compositions, microstructures and
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properties of materials before and after their use under extreme conditions, either in nuclear installations (fission and fusion) or on a high flux test facility, or after controlled modification in