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nanostructures using ultrashort laser pulses, and to measure, understand, and ultimately control the resulting ultrafast dynamics with spatial resolution. This approach, paired with simple models, will provide new
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(XPCS) that is analogous to dynamic light scattering using X-rays. XPCS allows studying motions in several disordered systems ranging from complex fluids, colloids, vesicles, proteins to glasses. The high
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-ray Photon Correlation Spectroscopy (XPCS), Quasi-Elastic Neutron Scattering (QENS) and Dynamic Light Scattering (DLS) techniques to study the structure and dynamics of proteins in solutions. Your tasks
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are looking for a candidate to carry out the following functions: Analyze coherent diffractive imaging datasets, reconstructing real space images from X-ray scattering patterns. Analyze time-dependent real
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cells) - Synchrotron measurements (e.g., diffraction, tomography, inelastic x-ray scattering, and/or absorption spectroscopy) - Measurements at X-ray Free Electron Laser (XFEL) facilities - Pulse-echo
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(posted 2025/11/13, listed until 2026/02/28) Position Description: Apply Position Description The Institute of Theoretical Physics at the Chinese Academy of Sciences (ITP-CAS) (http://english.itp.cas.cn
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physical characterization techniques (differential scanning calorimetry, dynamic light scattering, small angle neutron and/or x-ray scattering) to characterize the DIBs; and (3) Develop/implement image
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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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various areas of theoretical and computational chemistry such as quantum and semi-classical theory of molecules, electronic excited-state dynamics and relaxation, materials and light, statistical mechanics
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scattering and by pump-and-probe methods of standard and topological phonons in silicon and 2D materials; Advance experimental methods to study topological phonon waveguides and their coupling to phonon