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National Aeronautics and Space Administration (NASA) | Pasadena, California | United States | about 1 hour ago
Postdoctoral Program website for application instructions and requirements: How to Apply | NASA Postdoctoral Program (orau.org) A complete application to the NASA Postdoctoral Program includes: Research proposal
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supported by COMMLab, 6GSPACE Lab, HybridNetLab, QCILab, TelecomAI Lab, CSAT Lab, our SW Simulators, and our Facilities. For further information, you may refer to https://www.uni.lu/snt-en/research-groups
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Responsibilities will vary depending on the Fellow’s background, but may include: Developing machine learning, optimization, or simulation models to improve clinical operations and resource allocation Advancing
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, and Jason Widegren https://www.nist.gov/programs-projects/electric-acoustic-spectroscopy-intermolecular-interactions-solution#OnChip NIST’s Material Measurement Laboratory (MML) and Communications
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PostDoc/Senior Scientist - Process and Plant Design in the Field of Liquid Organic Hydrogen Carriers
, postdoctoral research, or industrial experience Experience in the modeling of multiphase systems is desirable Experience with flowsheet process simulators (e.g., Aspen, UniSim, HYSYS, gPROMS, Aveva) and modeling
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optoelectronics intelligent and advanced polymers and materials Postdoctoral Career Opportunity: Non-Thermal Plasma-Based Hydrogen (H2) Production Department: The Applied Chemistry and Engineering Research Center
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simulator; and housing the only university icing research wind tunnel in the United States. Department Unit/Website: https://www.engineering.iastate.edu/ Proposed Start Date: March 1, 2026 Proposed End Date
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optimize algorithms for data-intensive research. Deploy and maintain systems in both simulated environments and on physical hardware. Diagnose and resolve complex system and software issues. Execute feature
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pioneering research in process systems engineering, with a focus on first principles and data-driven modeling, simulation and optimization with strong and permanent interactions with experiments. Integrate
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today. Their convergence has the potential to redefine how we simulate, optimize, and understand complex physical systems. Integrating AI into quantum computers and simulators can help overcome current