Neutron imaging can provide two-or three-dimensional, spatially resolved images of the
internal structure of bulk samples that are not accessible by other techniques, making it a …

Neutrons are highly sensitive to magnetic fields owing to their magnetic moment, whereas
their charge neutrality enables them to penetrate even massive samples. The combination of …

We report how a grating interferometer yields neutron dark-field scatter images for
tomographic investigations. The image contrast is based on ultrasmall-angle scattering. It …

A new high-resolution detector setup for neutron imaging has been developed based on
infinity-corrected optics with high light collection, combined with customized mounting …

An optimized detector system that allows high-resolution neutron imaging with desired
flexibility is described. The presented system can be adapted and integrated with standard …

Spatial resolution and detection efficiency of neutron imaging detectors are the crucial
parameters defining the ultimate resolution in neutron radiography, micro-tomography and …

The neutron imaging instrument CONRAD was operated as a part of the user program of the
research reactor BER-II at Helmholtz-Zentrum Berlin (HZB) from 2005 to 2020. The …

Liquid water exchange in two-phase flows within hydrophobic porous gas diffusion materials
of polymer electrolyte membrane fuel cells was investigated spatially resolved with H–D …

Neutron imaging is a method for non-destructive investigations of objects in science and
engineering. Different contrast mechanisms provide information about the interior structure …

Recent studies have demonstrated that the combination of x-ray tomography during triaxial
tests (“in-situ” tests) and 3D-volumetric Digital Image Correlation (3D-DIC) can provide …