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through Space and Time: Enabling the Quantum Dynamics of Chirality-Induced Spin Selection Through Novel and Scalable Computational Methods. The project involves close collaborations with teams at University
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to biogeochemical cycing of essential elements in the soil system. We also welcome potential candidates who are eager to develop their own research projects within these areas. We value collaborative and
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simulation tools for correlated attosecond electron dynamics in molecules." The position will involve developing new methods related to tensor network states (e.g. TD-DMRG, MCTDH) to simulate correlated
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closely with Drs. Tomas Rube (UC Merced) and Marko Jovanovic (Columbia University). This research opportunity will primarily focus on developing computational methods for designing and interpreting pooled
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simulation environments to test and benchmark the developed control frameworks. Experimentally validating these methods through field experiments with real-world robotic platforms. The Postdoctoral Scholar
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communication skills are required. Preferred qualifications Preferred Qualifications (if applicable): • Experience with experimental research, specifically using material characterization methods is preferred
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systems, machine learning, and control theory. Experimentally validating these methods through field experiments. In addition to conducting research, the Postdoctoral Scholar will collaborate closely with