Computational Imaging with Coherent X-rays

Abstract:

The coherence of modern fourth-generation synchrotron sources enables high-resolution imaging of nanostructures in three and four dimensions, pushing beyond the limits of conventional microscopy and scattering methods. This capability opens new opportunities to study functional materials in unprecedented detail under realistic conditions, including in situ and operando environments.

This talk presents recent results at the intersection of computational methods and coherent Bragg diffraction imaging, highlighting advances in algorithmic reconstruction and data-driven analysis at third- and fourth-generation synchrotron facilities. Particular emphasis is placed on dynamic studies of nanoscale structures, where computational imaging plays a central role in resolving structural evolution over time.