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Field
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. Tasks 1. Modeling and analysis of uncertainties The first phase of the research will focus on identifying, structuring, and integrating major sources of long-term uncertainty that influence strategic
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to unravel signatures of non-equilibrium dynamics and phase transitions in the transient electronic structure. We have a strong background and reputation in state-selective and spin-sensitive time- and angle
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to unravel signatures of non-equilibrium dynamics and phase transitions in the transient electronic structure. We have a strong background and reputation in state-selective and spin-sensitive time- and angle
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University of North Carolina at Chapel Hill | Chapel Hill, North Carolina | United States | 1 day ago
and graduate students at UNC-CH. Training in physics is fundamental among the natural sciences because it provides understanding of the forces governing the structure of matter, from subatomic particles
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and laboratory-based computed tomography (CT). By combining in situ and ex situ analyses, the study will reveal the structural evolution, crack formation, and interfacial dynamics of silicon anodes
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that enhance the performance and energy flexibility of residential and commercial buildings. Your main responsibilities will include: Development of data-driven dynamic models to improve energy flexibility in
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sustainable forest management under climate change. Tree structural traits, including crown shape, branching patterns, and competition effects, strongly determine individual tree vitality, stand dynamics, and
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, including finite-element simulation and topological optimization of light guidance in HCFs, and numerical simulation of thermo- and fluid dynamics under fiber-drawing processes. Apart from the main tasks
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. Central to the research project is the study electronic structure and the dynamics occurring at extremely short time periods, down to the femtosecond time scale (10-15 s). In your research, you will be
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Discrete Element Method (DEM) models to simulate the charging and formation of multi-component, poly-disperse burden mixtures in the blast furnace. The goal is to optimize burden structure and permeability