Directional Dark Field for Nanoscale Full-Field Transmission X-Ray Microscopy (2506.16998v1)

Abstract: Dark-field X-ray imaging offers unique insights into material structures by visualizing X-ray scattering rather than attenuation, revealing features invisible to conventional imaging techniques. While established approaches like grating-based and speckle-based imaging have demonstrated the utility of dark-field contrast in medical diagnostics and materials science, these methods have been primarily limited to laboratory and micro-CT systems. Building on the recent demonstration of dark-field imaging at the nanoscale using transmission X-ray microscopy, we extend this technique to retrieve directional small-angle scattering information. By analyzing both a test object and human primary tooth enamel, we show that our transmission X-ray microscopy setup can successfully retrieve directional scattering information with minimal modifications of existing systems. This advancement expands the capabilities of nanoscale dark-field imaging, offering new opportunities for investigating structural properties in a wide range of scientific fields.