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has on the space-time geometry. The aim of the project is to explore the backreaction of quantum fields on black hole space-times. First, the stress-energy tensor for a chosen quantum field is computed
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April 2026 Details Aerospace components present significant inspection challenges due to their complex geometries, materials, and safety-critical nature. This project will research the use of Generative
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, the space-time geometry is fixed and classical, while the matter is quantized (and described by a quantum field). In this project the background space-time is a charged Reissner-Nordstrom black hole, and the
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Application Deadline: Applications accepted all year round Details Additive Manufacturing (AM), often referred to as 3D Printing, techniques are well-known for their ability to produce highly complex geometries
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accepted all year round Details Many theories of quantum gravity agree that the spacetime geometry of Einstein’s general relativity needs to be replaced by a different underlying structure. In particular
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segmented and used as basic construction elements. Thermoplastic composites blades, likely the blades of the future, have additional potential in that they can be thermoformed into new geometries, while also
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inspection challenges due to their complex geometries, materials, and safety-critical nature. This project will research the use of Generative AI to transform digital inspection for complex aerospace
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parts, needs to be improved. This project will transform manufacturing of these preforms by integrating advanced process modelling, novel fibre geometry and digital workflow tools. Your research will
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. Parinya Chalermsook studies the interplay between computation and combinatorics, applying this perspective across diverse areas including data structures, game theory, network design, and geometry. His