…treatments,” says Magnuson. “The Ti-C bond strengths in the Ti3C2-layers are altered when the stronger interacting F and O in Ti3C2Tx replace the Al-monolayer in Ti3AlC2. In addition, we also…
…release on MAX IV’s press room (Cision): [English version] [Swedish version] For media enquiries please contact Anna Sandahl, Head of Communication, MAX IV: anna.sandahl@maxiv.lu.se / +46 46 222 01 99…
…the installation, maintenance or substitution of components in the LINAC’s klystron gallery and the electron gun area. Two members of the vacuum team preparing the bakeout of an in-vacuum undulator…
…solution for measuring the live HV stability for the klystron voltage and potentially calculated the pulse energy directly in a klystron arc was one of the main takeaways from the…
…that the resolution in the electron spectrum does not depend on the photon energy bandwidth. Resonant Photoemission/Resonant Auger Spectroscopy (RPES, RAES) In conventional photoelectron spectroscopy, the electron is ejected in…
…a long term goal of 10 nm. The station is operating in vacuum and will have liquid nitrogen sample cooling. The imaging endstation will rely on position monitoring at the…
Come and meet us in Lund to explore how x-ray and neutron scattering can reveal the complexity of food materials Are you working with food research in industry or academia? Are…
The insertion Devices (ID) group is responsible of design, development and operation of Insertion Devices for the different beamlines at MAX IV Laboratory. Each beamline is fed by insertion device,…
It is mandatory to acknowledge MAX IV and it’s funders when publishing results based on your experiment. For detailed information about the acknowledgment, see our user policies. Synchrotron experiments are complex…
Visualisation of NanoMAX KB system The Mechanical Design Team assists with design of most components in our facility from simple brackets to custom designed endstations, all this in cooperation with…