Material research and hidden layers in paintingsĮspecially the mobile character is an important advantage: the entire set-up will be less than four meters long and can therefore be used in any lab at will. Users will therefore be less dependent on the scarce measurement time at large synchrotrons. Although Smart*Light does not aim to replace existing synchrotron facilities, it will be an important addition to these facilities, thanks to the compact design. With this radiation state-of-the-art analyses can then be carried out that are of value for various social sectors. Smart*Light uses new accelerator technology to convert laser light into intense and coherent X-rays by making them collide (via 'inverse Compton scattering') with a high energy beam of electrons. For various applications, traveling to a synchrotron (all outside the Benelux) is even unfeasible. The limited availability of high-energy synchrotron radiation imposes considerable limitations on the measurement conditions. With this synchrotron radiation changes in materials and fabrics can be followed in detail in time and space. However, this radiation is currently only produced in synchrotrons, large accelerators in which electrons move with almost the speed of light in a km-long tube. For more advanced applications, such as the development of high-tech materials and new medicines, 'coherent' high-intensity X-rays are now indispensable. This X-ray radiation, however, has a rather low intensity and is virtually unchangeable, so that only a snapshot can be taken and the information is often not sufficiently detailed. This usually happens with the same 'classic' X-ray technology, developed in the 19th century. To screen a person for breast cancer, to inspect welding seams in pipelines and to view the chemical condition of artworks. Smart*Light can ultimately be used in clinical applications for medical diagnostics, in research laboratories for the development of new materials and in museums to investigate important works of art. A consortium of 12 organizations in the Netherlands and Flanders will receive a subsidy of 2.85 million euros from the European Regional Development Fund (Interreg Vlaanderen-Nederland) for this purpose. In research project Smart*Light a compact and movable source of very bright X-rays with adjustable wavelength is developed, a 'table top synchrotron'. For example, if you’re tired of toggling across platforms, you can use Coherence Pro’s multi-tabbed interface to bring your top-visited sites into an app.Cross-border research for highly innovative X-ray solutions Using a set of different functionality, you can create apps that act as workspaces. Workspaces inside your app: Coherence Pro gives you space for creative work.But only with Coherence Pro multi-tab design, you can add multiple email accounts and switch between them inside your app. For instance, you can create a native email client with the Unite app. The power of multi-tab design: Multi-tab apps give you incredible freedom in terms of functionality.If necessary, copy the same settings across apps. Choose the preferred experience, whether it’s a native immersive interface or a space for multitasking. Switch between app modes: The app comes with three different UI modes: a single-window app, a traditional Chrome-like appearance, and a multi-tab design.Coherence Pro will also keep track of your preferred extensions. So if you create a social media application, you can add 1Password, Pocket, and other useful extensions to enhance your app. Chrome extensions and profiles: Let Coherence Pro automatically import extensions and profiles from your Chrome instances.You can batch-create programs if you need more than one, transferring settings across apps. An isolated app in seconds: Using Chrome as a backend, Coherence Pro allows you to work with Chrome-exclusive experiences like Canary or Spotify web player, and build entirely independent apps.
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