Would you like to know how SciLifeLab, MAX IV and ESS can contribute to drug discovery and development? Participate in the joint webinar organized by InfraLife together with partner organisation Lif on November…
…forced vibration, the electrons then produce x-ray beams which are delivered into several specialised experiement stations called beamlines. Here, a diverse number of experiments can occur, thanks to the brilliant light that…
…Science and Hard Matter. Within these focus areas, the activities of LINXS are organised into Themes that usually run for 3 years and aim to bring research communities together. –…
…companies. We propose this funding to ensure that we can utilise MAX IV’s potential.” Mats Persson (L), Minister for Education, and Marjolein Thunnissen, Science Director, MAX IV. Credit: Emelie Hilner,…
…allow monitoring diffraction from cellulose fibrils/fibers in all directions of the scattering plane. Since many in-situ studies during material processing are foreseen, data acquisition times down to ms regime is…
…two detectors that can be easily exchanged. The diffractometer can be used for rotational crystallography but also for fixed-target serial crystallography. It will also be possible to use different injector…
Want to become a MAX IV user? Apply for beamtime! MAX IV is happy to welcome researchers from all over the world to come to Lund and perform experiments using…
…5th floor! At 15.30, Director Trevor Forsyth, will set out future prospects related to LINXS, reflect on his first year as a Director, and highlight possibilities related to X-rays and…
…coherent part of the beam, generating a new virtual source for the experimental stations. NanoMAX beamline optics layout The optical beamline components for the beam shaping and beam transport up…
FemtoMAX performance2024 Energy range 1.8 -15 keV (0.8 – 6.8 Å) Photon source 2 x in-vacuum undulators U15 Monochromator Double Crystal Monochromator with InSb(111) crystals. 3 x Multi-Layer Mirror Photons…