Sample environments and equipment
…rotary encodes and a full step resolution of 5 µm. Scan area 150 mm by 100 mm. One of the two axis can be used for continuous scans. The stage…
…rotary encodes and a full step resolution of 5 µm. Scan area 150 mm by 100 mm. One of the two axis can be used for continuous scans. The stage…
…Sciences) at MAX IV is the result of support for synchrotron-based research in Finland and Estonia at a national level. The Estonian side of the FinEstBeAMS collaboration, headed by Ergo…
…evaluated by the MAX IV Laboratory PACs. FIMAX members The members of FIMAX (per 2022-07-13) are: Aalto University Natural Resouces Institute of Finland, VTT Tampere University Technical Research Centre of…
…research extends from the electronic structure studies of free particles (atoms, molecules, clusters and atmospheric particles) in gas phase and on surfaces to formation analysis and nanoscale characterisation of surfaces…
…water formation, can promote the intercalation of larger molecules. In the future, it would be interesting to study reactions using the pulse method with such bigger, more relevant molecules, like…
…hydrotreatment processes. The result is biofuel (shown on the far right). Credit: Sara Blomberg Catalysts are chemicals that promote reactions. Tackling the question, how can industrial catalysts efficiently transform lignin…
…before and after catalytic hydrotreatment processes. The result is biofuel (shown on far right). Credit: Sara Blomberg Catalysts are chemicals which promote reactions. Tackling the question, how can industrial catalysts…
…of the X-ray photon absorption, a core electron may be promoted into various unoccupied states; the probability of this promotion is strongly dependent on the photon energy and experimental geometry….
…the last BSR meeting taking place in Shanghai, China in 2019. BSR is a unique forum to discuss the novel possibilities of synchrotron and X-rays lasers and to promote their…
…the groundbreaking work within PRISMAS and at Max IV Laboratory. Email: ouassim.hocine@physics.uu.se Daniel Rainer Uppsala University, Sweden Using NanoMAX to understand Additive manufacturing of rare-earth-free permanent magnets Back home in…