A new five-axis parallel kinematic mirror unit has been developed for MAX IV soft X-ray beamlines. Its development and technical characteristics are now described in a peer-reviewed article. In an article published in March 2020 in the Journal of Synchrotron Radiation, a team from Uppsala University, MAX IV Laboratory, FMB Feinwerk und Messtechnik GmbH, and
While studying a class of copper-containing enzymes, a team of researchers discovered and characterised a new family of fungal proteins. Their study has now been published on Nature Chemical Biology, including analysis performed at BioMAX. The article is published together with a parallel study that sheds light on one of the potential biological roles of
In a paper published in October 2019, researchers from different institutions came to MAX IV to study timing performance of scintillators, materials employed in applications such as cancer diagnosis. At FemtoMAX they achieved an instrumental time resolution of 38 picoseconds, something never recorder in literature before. FemtoMAX, the ultrafast beamline at MAX IV, is now
Understanding chemical processes, such as catalysis, at the atomic level is a complex endeavour. It requires a thorough experimental design, which spans from choosing and developing the right model, to using the best instrument to perform controlled and advanced analysis. The latter aspect is where MAX IV comes into play with its state-of-the-art beamlines.