Method for manufacturing X-ray-optical lattice for X-ray dark field image and for X-ray phase contrast image, involves applying X-ray-sensitive layer with electrical conducting cover layer on base plate

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This invention describes a method for manufacturing X-ray-optical lattices that are used in advanced X-ray imaging techniques, such as X-ray dark field and phase contrast imaging. The method involves applying a special X-ray-sensitive layer with an electrically conductive cover onto a base plate, and then using an electro-coating process to create lattice structures made from materials like gold or nickel.

Use CasesContent extracted from patent full text and abstract with AI.

• Medical imaging systems that require high-resolution and enhanced contrast, such as in hospitals and diagnostic centers.
• Non-destructive testing of materials and components in industrial settings.
• Security scanning systems at airports and sensitive facilities.
• Research facilities that use advanced X-ray imaging to analyze biological samples or materials science specimens.

BenefitsContent extracted from patent full text and abstract with AI.

• Allows for the fabrication of high-precision X-ray-optical lattices needed for advanced imaging.
• Enhances image quality by enabling dark field and phase contrast imaging, which can reveal details invisible to conventional X-rays.
• The process is compatible with various materials, offering flexibility in design and application.
• Improves reliability and effectiveness of X-ray imaging systems.

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Patent Abstract

The method involves applying an X-ray-sensitive layer with an electrical conducting cover layer on a base plate. The electro-coating process is continued for a long time till the above part of the lattice bars (4) form a closed layer on a material (3). The plastic, polymethyl methacrylate and epoxy resin are used as another materials (2). The metal, such as gold and nickel is used as the former material. Independent claims are included for the following: (1) X-ray-optical lattices; and (2) an X-ray system with a radiator and detector system.