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in all-optical ultracold atom-ion hybrid experiments inside a multimode confocal cavity in the Department of Physics (Ref.: 533916), to commence as soon as possible for 12 months, with the possibility
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of integrated photonic antennas and metalenses. Responsibilities will include the fabrication process in the C2N cleanroom; the design and simulation of devices; and optical characterizations for design
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making that incorporate dynamic scene features, pose tracking, and eye-tracking data collected from an immersive police shooting simulator. The position is based at Indiana University Bloomington, with
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monitoring. Conventional early-warning systems, such as optical/IR cameras, satellites, human observers, and dense sensor networks, either provide limited warning time, depend on clear visibility, or are too
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on systems developed by grazing angle deposition (oxides and metals) for optical, optronic, and thermochromic applications. Where to apply Website https://oficinavirtual.uca.es/oficinaVirtual
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experimentally characterized. These optical structures will be designed using electromagnetic and ray-tracing simulators and manufactured using two-photon polymerization-based 3D printing techniques. Where
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Theoretical Quantum Many-body Physics and Quantum Sensing at Indiana University Bloomington Fields: Quantum many-body theory, AMO–condensed matter interfaces, advanced numerical simulations, quantum sensing
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apparatuses, free space and fiber optics, precision interferometry, quantum optics, analog and digital controls, low noise electronics, simulation and modeling, finite element modeling, and computer programming
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retraining based on the photonic system’s response. To ensure consistency between optical responses and ML model performance, the student will also contribute to WP3 (1.8 person-months) by supporting ML
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making that incorporate dynamic scene features, pose tracking, and eye-tracking data collected from an immersive police shooting simulator. The position is based at Indiana University Bloomington, with