FinEstBeAMS is a materials and atmospheric science beamline at the MAX IV 1.5 GeV storage ring. It provides ultraviolet and soft X-ray radiation with precisely controlled and widely variable parameters. The beamline has two branches: one branch is dedicated to ultra-high vacuum studies of surfaces and interfaces and the other to gas-phase experiments and photoluminescence
The ultrafast beamline at MAX IV helps scientists study how materials are structured and how they change over extremely short periods of time. These studies are important for developing new ways to use light to control materials, which could lead to new approaches to manufacturing in various industries, clean energy solutions inspired by how plants
The CoSAXS beamline is a state-of-the-art multipurpose Small Angle X-ray Scattering (SAXS) instrument with opportunities to use the inherent high coherent properties of the 3 GeV MAX IV ring through X-ray Photon Correlation Spectroscopy (XPCS) experiments. It offers high brilliance, monochromatic and tuneable X-rays, with outstanding performance in low beam divergence, high X-ray flux, and
BioMAX is one of two X-ray macromolecular crystallography beamlines at MAX IV Laboratory. It has been in user operation since 2017. Designed for stability, reliability, and ease of use, BioMAX offers a streamlined experimental setup with fully or highly automated data collection capabilities. The beamline supports a wide range of experimental techniques, including experimental phasing,
Overview The Balder beamline is dedicated to X-ray absorption spectroscopy (XAS) and X-ray emission spectroscopy (XES) in medium and hard X-ray energy range, 2.4-40 keV (at present 4-40 keV). The high brilliance from the 3 GeV storage ring in combination with the beamline design will allow for time-resolved measurements down to sub-second time resolution to