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Field
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-scale multi-physics numerical simulations, e.g. simulation of thermal environment, urban greenery, airflow movement at the city, district and neighbourhood scales; • Coordinate, prepare and present
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analysis), code development, and numerical simulations. Access to high-performance computing facilities and datasets from laboratory experiments will be provided to support simulation and verification
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timely climate information can strengthen community networks and encourage adaptive behaviors in a warming urban environment. Qualifications Key Responsibilities Conduct multi-scale multi-physics numerical
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emissions and environmental impact. This project will develop a high-enthalpy inductively coupled plasma torch system to simulate the extreme thermal environments of spacecraft atmospheric re-entry, enabling
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emissions and environmental impact. This project will develop a high-enthalpy inductively coupled plasma torch system to simulate the extreme thermal environments of spacecraft atmospheric re-entry, enabling
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compounds with Essential Physicochemical Properties for drug design and development. Translate research findings into practical applications in pharmacology. Perform numerical simulations on deep learning
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. Possible research directions include, but are not limited to: Field-level inference and generative modeling of large-scale cosmic structure Simulation-based inference, numerical simulations, and neural
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, the Fellow will investigate the mathematical aspects of quantum-classical hydrodynamics in both reversible and irreversible regimes, on the other hand, they will perform numerical simulations to study
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discovered exoplanets and exoplanetary systems as compositional and dynamical guide. This includes conducting numerical simulations of planet formation through N-body simulation, focussing on models
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systems are commonly very compact. Despite the numerous numerical models that have been proposed and progressively refined by the observational constraints over the past decade(s), our understanding