NanoMAX
The hard X-ray nanoprobe of Max IV – NanoMAX – is designed to take full advantage of MAX IV’s exceptionally low emittance and the resulting coherence properties of the X-ray…
The hard X-ray nanoprobe of Max IV – NanoMAX – is designed to take full advantage of MAX IV’s exceptionally low emittance and the resulting coherence properties of the X-ray…
SoftiMAX is a soft X-ray beamline, dedicated to spectromicroscopy and coherent imaging. The beamline will operate in the photon energy range between 275 eV and 2.5 keV and have two…
SPECIES is an undulator based soft X-ray beamline, located at the 1.5 GeV storage ring. The offered experimental techniques are Ambient Pressure X-ray Photoelectron Spectroscopy (APXPS), X-ray Absorption Spectroscopy (XAS),…
The RIXS (Resonant Inelastic X-ray Scattering) technique was pioneered already in the 1980’s, and since then it has provided a broad range of applications. It relies heavily on access to…
Soaking smaller molecules into solvent channels of protein crystals has been a widely employed method for obtaining crystalline complexes with ligands, that is ions or molecules that bind to biomolecules….
The MAX IV facility consists of a 3 GeV storage ring, a 1.5 GeV storage ring, and a linear accelerator (fed by two guns) that serves as a full-energy injector to the rings, but also…
The MAX IV linac serves two purposes: it’s a continuous top-up injector to both storage rings, but it also accelerates and compresses electron bunches for the short-pulse facility. The linac…
The MAX IV 1.5 GeV storage ring is based on a compact double-bend achromat lattice for the production of bright soft x-ray and UV radiation. The storage ring is a…
The MAX IV 3 GeV storage ring (R3) is based on a novel multi-bend achromat lattice (MBA) for the production of ultra-bright hard x-ray radiation. The storage ring has a…