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the dynamics of ultracold collisions and the properties of ultracold molecules. They will develop quantum-mechanical scattering and bound-state methods and apply them to a variety of ultracold atomic and
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radar interferometry (InSAR) integrated with GNSS and airborne laser scanning. The PhD candidate will: Develop a recursive, dynamic monitoring strategy for near-continuous 3D surface displacement
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on this project, you will: Design and Model : Develop novel concepts for integrating photonic systems (e.g., laser-based, integrated optic components) with advanced microwave scattering/diagnostic
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many-body physics with ultracold polar molecules Controlling collisions between laser-cooled molecules and atoms The grants are in collaboration with the experimental groups of Prof Simon Cornish (Durham
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separation techniques (AF4, SEC) and light-scattering analysis (MALS, DLS); Demonstrated experience in peptide/protein characterization using AF4-MALS, SEC-MALS, and high-resolution mass spectrometry; Strong
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micrometres. Furthermore, this nonlinearity gives rise to rich fundamental phenomena ranging from the superfluidity of light (i.e., propagation without scattering from imperfections) and ultra-low-power self
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the dynamics of ultracold collisions and the properties of ultracold molecules. They will develop quantum-mechanical scattering and bound-state methods and apply them to a variety of ultracold atomic and