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of computational chemistry and develop new methodologies that push simulations into length- and time-scales that traditional methods cannot reach. You will be embedded in the Pioneer Center CAPeX, an
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rather than one-shot scenario evaluation. The core research directions of the PhD project include: (i) multi-agent RL to jointly learn policies for multiple control parameters; (ii) uncertainty-aware
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Job Description The Center for Nanophotonics (NanoPhoton) at the Technical University of Denmark (DTU) conducts cutting-edge fundamental research on semiconductor nanocavities that confine light to
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be applied to core technologies of the department, e.g., batteries and catalysts. The project includes collaboration with experimentalists at DTU, who will verify the computational predictions as
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multi-carrier and cross-border energy grids, and efficiently activate flexibility services. These data-driven advances can deliver system-wide benefits, including lower operation and reserve-procurement
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, predictive modelling, and autonomous maintenance solutions. You thrive on scientific discovery, enjoy tackling complex multi-physics problems, and have the drive to explore innovative concepts