Description
Access to nanoscale 3D distribution and anisotropy is of chief importance for studying functional hierarchical materials, for example in biology, materials science, and energy research. X-rays offer unique opportunities to probe nanostructure in a minimally intrusive, and non-destructive, procedure. In order to reach the highest resolution and quality, computational imaging techniques play an increasingly important role, due to limitations in X-ray optics or the need to reconstruct hyperdimensional images from 2D data. This talk will showcase the potential of computational X-ray imaging for nanostructure mapping, with details of the mathematical inversion procedure.
