…Max-Planck-Gesellschaft Chikina Paul Scherrer Institute (PSI) Galdino Paul Scherrer Institute (PSI) Forslund Uppsala University Imada Kyoto Institute of Technology Giorgianni Paul Scherrer Institute (PSI) Yu RISE Research Institute of Sweden…
…of biomimicry, a design re-creation of biological processes and materials in nature. In structural studies, graphene, one of the thinnest materials in the known universe, is valued for its versatility…
…converted by a scintillator into visible light. This visible light image is then magnified by the optical microscope. The magnified image is recorded digitally by a high sensitivity visible light…
The optical layout of beamlines at MAX IV are typically designed in close collaboration with our optics simulation experts. MAX IV uses a number of simulation tools to perform ray…
MicroMAX will open up new possibilities in the area of structural biology making it possible to study proteins in 3D and to follow them in time. MicroMAX will allow studying…
…NOTE: Results from MicroMAX, in addition to the general acknowledgement for MAX IV, must include the following acknowledgement: “MicroMAX is funded by the Novo Nordisk Foundation under the grant number…
The ICE (Ions in Coincidence with Electrons) end station is a mobile end station that is designed to be compatible with a number of MAX IV LDM-relevant beamlines. By using a combination of multi-coincidence…
It is possible to get fast access to CoSAXS for sample feasibility tests in order to check for q-range, sample concentration and signal quality. The measurements should help (especially new…
…synchrotron x-rays at our various beamlines. In the User Access section of our web you will find all the information you need in order to apply for beamtime through the…