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radiation techniques, such as X-ray absorption spectroscopy, ambient-pressure XPS, X-ray scattering, or related methods. Minimum Qualifications: Ph.D. in Physics, Materials Science, Chemistry, or a closely
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of protein structures with and without ligands using crystallography, NMR and small-angle scattering, possibly supported by molecular modelling Presentation of results in international peer-reviewed journals
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with and without ligands using crystallography, NMR and small-angle scattering, possibly supported by molecular modelling Presentation of results in international peer-reviewed journals and at scientific
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scattering (SERS) and infrared (IR) spectroscopy will be employed to probe vibrational signatures, revealing structural changes and interactions at the single-molecule level [1-5]. A significant aspect of the
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and qualifications. Possible topics are: The theory of ultrafast pump-probe experiments (e.g., time-resolved X-ray scattering and spectroscopy), simulations and data processing of actual ultrafast
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are listed here: https://www.open.ac.uk/science/physical-science/phd-students/current-phd-studentships These studentships are funded for 3 years and 3 months, with the possibility of an additional 3-month
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on powder diffraction, neutron diffraction, or scattering data will also be considered, preference will be given to those with expertise in electron diffraction. Candidates should be capable of preparing
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techniques for applications in EM theory, radiofrequency (RF) analysis/design for wireless systems, wave scattering and propagation, and wave-particle dynamics in accelerator physics, among others. Preferred
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of confining interface modes. Through high-resolution Brillouin scattering and coherent acoustic phonon generation experiments, we will study the dynamical behavior of microstructured systems. We propose
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perforation, and the partial encapsulation or/and amorphisation of the 2D materials. The originality of our project is to design the spatial organisation and density distribution of phonon scattering centers