When a macroscopic-sized noncrystalline sample is illuminated using coherent x-ray radiation, a bifurcation of photon energy flow may occur. The coarse-grained complex refractive index of the sample may be considered to attenuate and refract the incident coherent beam, leading to a coherent component of the transmitted beam. Spatially unresolved sample microstructure, associated with the fine-grained components of the complex refractive index, introduces a diffuse component to the transmitted beam. This diffuse photon-scattering channel may be viewed in terms of position-dependent fans of ultrasmall-angle x-ray scatter. These position-dependent fans, at the exit surface of the object, may under certain circumstances be approximated as havin...
Directional dark-field imaging is an emerging x-ray modality that is sensitive to unresolved anisotr...
4siFollowing the first experimental demonstration of x-ray speckle-based multimodal imaging using a ...
We present the translation of the beam tracking approach for x–ray phase–contrast and dark–field ima...
When a macroscopic-sized non-crystalline sample is illuminated using coherent x-ray radiation, a bi...
International audienceWhen a macroscopic-sized noncrystalline sample is illuminated using coherent x...
Emerging methods of x-ray imaging that capture phase and dark-field effects are equipping medicine w...
We develop a means for speckle-based phase imaging of the projected thickness of a single-material ...
Purpose: We investigate how an intrinsic speckle tracking approach to speckle-based x-ray imaging is...
Speckle-based phase-contrast X-ray imaging (SB-PCXI) can reconstruct high-resolution images of weakl...
Spatial resolution in standard phase-contrast X-ray imaging is limited by the finite number and size...
X-ray directional dark-field imaging is a recent technique that can reveal a sample’s small-scale st...
X-ray directional dark-field imaging is a recent technique that can reveal a sample’s small-scale st...
X-ray imaging has conventionally relied upon attenuation to provide contrast. In recent years, two c...
Abstract The dark-field signal measures the small-angle scattering strength and provides complementa...
Unresolved spatially-random microstructure, in an illuminated sample, can lead to position-dependent...
Directional dark-field imaging is an emerging x-ray modality that is sensitive to unresolved anisotr...
4siFollowing the first experimental demonstration of x-ray speckle-based multimodal imaging using a ...
We present the translation of the beam tracking approach for x–ray phase–contrast and dark–field ima...
When a macroscopic-sized non-crystalline sample is illuminated using coherent x-ray radiation, a bi...
International audienceWhen a macroscopic-sized noncrystalline sample is illuminated using coherent x...
Emerging methods of x-ray imaging that capture phase and dark-field effects are equipping medicine w...
We develop a means for speckle-based phase imaging of the projected thickness of a single-material ...
Purpose: We investigate how an intrinsic speckle tracking approach to speckle-based x-ray imaging is...
Speckle-based phase-contrast X-ray imaging (SB-PCXI) can reconstruct high-resolution images of weakl...
Spatial resolution in standard phase-contrast X-ray imaging is limited by the finite number and size...
X-ray directional dark-field imaging is a recent technique that can reveal a sample’s small-scale st...
X-ray directional dark-field imaging is a recent technique that can reveal a sample’s small-scale st...
X-ray imaging has conventionally relied upon attenuation to provide contrast. In recent years, two c...
Abstract The dark-field signal measures the small-angle scattering strength and provides complementa...
Unresolved spatially-random microstructure, in an illuminated sample, can lead to position-dependent...
Directional dark-field imaging is an emerging x-ray modality that is sensitive to unresolved anisotr...
4siFollowing the first experimental demonstration of x-ray speckle-based multimodal imaging using a ...
We present the translation of the beam tracking approach for x–ray phase–contrast and dark–field ima...