Synchrotron X-rays today remain largely underutilized in corrosion science, a field which examines the degradation of engineering materials. Known hurdles to industrial research on commercial alloys include a lack of…
In order to simplify the process of becoming a user at MAX IV, we have created this User Guide outlining some of the main steps you will need to follow,…
Join this one day workshop and learn about how industry can create value by getting access to advanced research tools at large research facilities! The day will contain presentations from…
Telephone and email Phone (reception): +46462229872 Phone (Lund University): +46462220000 Email:reception@maxiv.lu.se Visiting address MAX IV Laboratory Fotongatan 2 224 84 Lund Sweden Mailing address MAX IV Laboratory Lund University First…
PRISMAS is offering a portfolio of challenging, relevant, interdisciplinary research projects, related each to a PhD position, that align with the aims of the Sustainability Development Goals. The selection of…
MAX IV operates 16 beamlines with an opportunity to add more in the future. The beamlines are situated on our 1.5 GeV (R1) or 3 GeV (R3) storage rings or…
Beamline citations and MAX IV acknowledgements Please cite the following papers when publishing results based on experiments at NanoMAX. Also note that MAX IV requires acknowledgement of beamtime, see the…
complete list The full list of all publications connected to NanoMAX (be it on data taken at NanoMAX or publications about the beamline) can be found on the MAX IV…
The adoption of sustainable and renewable energy sources to permanently move beyond the dependence on fossil fuels constitutes one of the great challenges of our time. One that is made…
Unlock your innovation potential What can you find by looking closer? MAX IV offers the world’s most brilliant synchrotron X-rays to study materials and processes at a whole new level…