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-generation computing and quantum computing are future-oriented topics that our researchers are working on. Our institute is divided into four areas, each with its own subgroups: » Optimization« » Processes and
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at Fraunhofer ITWM are machine learning, artificial intelligence, renewable energies and sustainability. In addition, next-generation computing and quantum computing are future-oriented issues that our
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, voltage converter modules for electromobility, laser systems for measurement processes, or innovative hardware and software for quantum computers and quantum sensors: we develop tomorrow’s technology in
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accuracy requirements (down to < 1 nm) faced by large-scale and/or segmented optics (e.g., for telescopes for satellite and quantum communication, earth observation, astronomy or remote sensing
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used to manufacture high-precision glass components for the semiconductor industry, medical technology, and quantum technology with detailed dimensions of < 1 µm. The strong focusing of ultrashort pulsed
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, biophotonics, light-enabled nanotechnology, nanophotonics, nonlinear optics, optical metrology, optical quantum technology, and ultrafast spectroscopy. The research program of the candidate is expected
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our website (https://www.cda.cit.tum.de/research/quantum/ ) and open-source implementation referred therein. We see ourselves as an interface between the stakeholders building physical quantum
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modules for electromobility, laser systems for measurement processes, or innovative hardware and software for quantum computers and quantum sensors: we develop tomorrow's technology from a single source for
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24.02.2022, Academic staff The Munich Quantum Valley aims at developing a full quantum computing stack, from the application level to the physical quantum hardware. Within this interdisciplinary
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quantum remote sensing of atoms in the MLT. The new, flexible dye laser systems require hands-on work in optics (spectroscopy, laser physics) and software development for lidar control. Data evaluation is