A coherent X-ray plane wave is incident on a sample, which is completely illuminated, and a two-dimensional diffraction pattern is recorded in the far-field zone (Fraunhofer diffraction). To date, most of SR sources have almost 100% transverse coherence, and the upgrade of megafacilities is aimed mainly at reducing further the source emittance below 1 nm, increasing brightness, and carrying out experiments with a pico- or femtosecond temporal resolution.ĬDI in the plane-wave approximation ( Fig. Along with the development of new SR sources, a number of programs have been started that are aimed at upgrading the functioning SR sources (KSRS-Kurchatov, ESRF–EBS, PETRA IV, APS, etc.) and creating new specialized stations on the functioning sources, designed for experiments on imaging micro- and nanoobjects using CDI methods (NanoMAX on the MAX IV source in Sweden, ID16A/B and ID10 on the ESRF source in France). A particular role in the development of CDI methods belongs to Mega Science facilities: synchrotron radiation (SR) sources of the fourth generation and X-ray free-electron lasers (XFELs). The development of CDI methods makes it possible to extend significantly the range of objects studied and, correspondingly, the range of scientific problems to be solved, including such fields of prime importance in Russia as biotechnology, medicine and genetics, design of new functional (construction, composite, etc.) materials, and hybrid and nature-like technical systems (sensors, biosensors, etc.). Examples of such samples are various biological objects, including biological cells and viruses, and nanocrystallites of poorly crystallized macromolecules and their complexes. They provide amplitude- and phase-contrast imaging of an object studied and are aimed at determining the 3D structure of noncrystalline samples and nanocrystals (nanostructures) with a resolution that is theoretically restricted by only the diffraction limit. Table Dimensions: 952mm x 600mm x 913mm (W 36.2 x D 23.6 x H 35.Methods based on the use of coherence of electromagnetic radiation in the X-ray range-coherent X-ray diffraction imaging (coherent diffraction imaging (CDI))-have been actively developed in the last decade.Instrument Dimensions: 1072mm X 600mm x 610mm (W 39.4 x D 31.5 x H 59 inches).External Infra-Red (IR) Image: IR (940nm illumination).External Photograph: Color (white light flash).Pupil Size: ≥ 4.0 mm ≥ 3.3 mm (small pupil mode).Field of View: 45° and 35° (small pupil mode).Scan Depth: Up to 3 mm (regular lens), Up to 6.25mm (FullRange lens).Lateral Resolution: 18μm (Regular CAM) (in tissue), 36μm (FullRange CAM) (in tissue).AngioVue Montage: Two 9x9mm scans, four 9x9mm scans.Scan Width: Up to 6.25mm (FullRange mode) 3mm – 16mm.Transverse Resolution: 15μm (in tissue).Posterior and Anterior OCT Imaging with OCTA Lite Solix FullRange OCT with AngioVue Essential.The Solix platform is available in two configurations that are easily upgradeable, so your OCT system meets the needs of your practice today and into the future.
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