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rigorous wavefront simulations and AI/ML networks that account for the light-matter interactions in various wavelength regimes, and real light source parameters such as coherence, polarization
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simulation and optimization of electron beam spin polarization in the electron storage ring (ESR) of the Electron-Ion Collider. This includes expanding the spin tracking capabilities of the accelerator design
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Division), plus other postdoctoral researchers who are working on different aspects of the project (i.e., development of ptychographic imaging techniques, performing simulations and experiments
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deployment strategies to evaluate and inform next-generation predictive urban climate models (e.g., using OSSEs (Observing System Simulation Experiments) or ablation studies, through extensive literature
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Duties and Responsibilities: You will perform molecular dynamics simulations using MILPs. You will perform density functional theory (DFT) calculations for solid state materials. You will build and train
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optimization. Basic knowledge of integrated circuit design, including digital simulation and logic synthesis. methods, and other related topics pertaining to fast AI model inference. Experience working in
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with a focus on ASIC design Experience of end-to-end custom ASIC design using Cadence design tools (schematic entry, simulation, and layout) Knowledge of radio frequency (RF) and microwave circuit design