The software is sold directly by CrystalMaker Software Ltd. The Windows version is designed to run on the latest generation of Windows PCs and tablets, with high-DPI displays and touch-sensitive control. The Mac version works with Catalina, offering Retina graphics, 'Dark Mode', multi-touch, haptic feedback and a dedicated Touch Bar interface for MacBook Pro. SingleCrystal 4 is available as true native 64-bit Mac and Windows applications. Whilst SingleCrystal 4 can be used as a standalone program – to create new simulations from scratch, or import crystal data files from other programs – it also works seamlessly with CrystalMaker X, allowing users to edit crystal structures at the atomic level (in CrystalMaker) and immediately see how this affects the diffraction properties: an ideal teaching tool. A new interface delivers a streamlined easy-to-use workflow and offers real-time adjustment of experimental and sample parameters.Ī key feature of SingleCrystal 4 is the ability to simulate multi-phase diffraction – to replicate real-world effects such as 'twinning', topotactic relationships, crystal coatings and impurities – as well as showing 'Kikuchi lines' in transmission electron microscope patterns and 'powder rings' from nanocrystalline samples. SingleCrystal 4 features a brand new design: the source code was completely rewritten to take advantage of the latest 64-bit multi-core operating systems with high-resolution graphics and multi-touch control. Observed electron diffraction images can also be analysed and their crystal orientations calculated, saving hours of painstaking measurement and analysis. SingleCrystal 4: real-time multi-phase diffraction simulationĬrystalMaker Software Ltd has announced the release of a new version of their SingleCrystal program: a tool for understanding the diffraction properties of crystalline materials.ĭesigned for physicists, chemists, material scientists and geologists, SingleCrystal 4 can simulate the results of laboratory diffraction experiments – in real time, and from the comfort of the user's laptop.Johann Puluj (1845–1918): his career and the “invisible cathode rays”.Data partnership to drive greater opportunities in pharma and materials development.A scientific student conference at Novosibirsk State University: interdisciplinary, international, online.Fourth International Workshop on X-ray Crystallography in Structural Biology.17th European Conference on Solid State Chemistry.ECM32 Satellite Meeting: Mathematical and Theoretical Crystallographic Workshop.To.Sca.Lake 3.0: Total Scattering for Nanotechnology 2019.Why do so many crystal structures remain unpublished?. Making sense of vacancy correlations with single-crystal diffuse scattering data.Combining forces: complementary techniques brought together to determine tricky crystal structures.Two new virtual special issues of Journal of Synchrotron Radiation.Journal of Synchrotron Radiation: Open call for new Main Editor to join leadership team.Three new Co-editors appointed to Acta Crystallographica Section D, Structural Biology.Rapid publication of SARS-CoV-2/COVID-19 research in IUCr Journals.Structural biology of SARS-CoV-2 proteins.SSRL joins global fight against COVID-19.Supporting COVID-19 research at the NSLS-II.Lighting the way for Australian researchers: COVID-19 research at the Australian Synchrotron.An introduction to crystallography research on SARS-COV-2 (COVID-19) via X-ray diffraction at synchrotrons around the world.
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