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temperature experimental work using a laser-heated or externally-heated diamond anvil cell combined with various laser spectroscopic methods (Raman, Brillouin scattering) and synchrotron X-rays to determine the physical
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facility into which a hydrogen sequential combustor can be inserted. Laser-based optical diagnostics and plasma emission spectroscopy will be used to experimentally characterize the effects of repetitively
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performed on a lab-scale, high-pressure test facility. Experimental techniques for fluid mechanics, combustion and acoustics will be used, including laser-based optical diagnostics. The modeling work will
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the work will be mostly theoretical and numerical. State-of-the art modeling and reduction techniques will serve the design process. The concepts will be validated in laser-cut or 3D printed prototypes. The
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for manufacturing processes such as 3D Printing, laser cutting, precision motion, robotic manipulation, using methods in machine learning, federated learning, and optimization. In all cases, the results will be
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of digital twin-based learning and optimization methods for manufacturing processes such as 3D Printing, laser cutting, precision motion, and robotic manipulation using methods in machine learning, federated