Simple X-Ray Dark- and Bright-Field Imaging Using Achromatic Laue Optics

Abstract: X-ray dark-field and bright-field imaging in the Laue geometry has been successfully demonstrated. Using a Bragg-case asymmetric monochromator that produces an X-ray beam with a 0.3 mrad divergence incident onto an object and a Laue geometry analyzer that can simultaneously provide dark-field imaging (DFI) and bright-field imaging (BFI). The DFI has only an X-ray refraction component on the object without illumination, while the BFI has reasonable illumination. This was achieved by a 1.075 mm thick silicon ana… Show more

“…This allows for PC and absorption images to be produced simultaneously without any need for reconstruction. [38][39][40] All four PC imaging techniques provide images with good contrast and information not available with traditional…”

Potential for Imaging Engineered Tissues with X-Ray Phase Contrast

“…This allows for PC and absorption images to be produced simultaneously without any need for reconstruction. [38][39][40] All four PC imaging techniques provide images with good contrast and information not available with traditional…”

Potential for Imaging Engineered Tissues with X-Ray Phase Contrast

“…A pioneering imaging due to refraction at internal boundaries of object was first proposed by Podurets et al [26,27] in neutron imaging and later in X-ray imaging [28,29]. These belong to X-ray bright-field imaging (BFI) [30][31][32][33][34][35][36] because the images involve not only refraction component but also illumination component, while DFI [37] should involve only refraction component. A certain thickness Laue case analyzer can suppress the illumination background.…”

“…Our group also proposed another idea of extracting the component of refraction contrast by the adoption of a Laue analyzer called refraction-based X-ray DFI [37] as shown in Fig. 8.…”

Clinical step onward with X-ray dark-field imaging and perspective view of medical applications of synchrotron radiation in Japan

“…Generally, incident beams impinging on a Laue-case analyzer near the Bragg angle is split into two beams, a forwardly diffracted and a diffracted beam. DFI uses a crystal such that the intensity of forwardly diffracted waves diminishes at the Bragg angle [7]. DFI optics under the above condition and without an object present interrupts the forwardly diffracted intensity.…”

Refractive-index based tomosynthesis using dark-field imaging optics