…Our in-house research revolves mostly around two-dimensional materials (graphene, borophene, etc.), and bottom-up fabrication, e.g. nanoribbons. The latest research highlights, both in-house and external, may be found at the highlights page,…
…mixing of reagents in droplets One of the main advantages of having the sample under flow is to minimize the risk of radiation damage as the sample volume hit by…
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…
…neutron science. Take the chance to meet with colleagues in the LINXS community! For those of you who are not familiar with how LINXS work, this is an excellent opportunity…
…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…
…it would have been possible without your support and engagement. Despite our financial difficulties, we have committed to remain open for business 2024. Looking forward to a new year of…
…Cell not bakeable Pressure range 5 x 10-6 mbar – 30 mbar Top (sample) manipulator X, Y, Z, R motorised Bottom (beaker) manipulator X, Y, Z motorised Electrode info Typical…
…phases that the steels would assume during deformation. The steels used in the experiments were commercial so-called Transformation induced plasticity or TRIP steel and metastable austenitic stainless steels. “The phase…
The Design Office team consists of the following people Design Office Common contact Office location: D110053 E-mail: mechanical@maxiv.lu.se Joaquin Gonzalez E-mail: joaquin.gonzalez@maxiv.lu.se Phone: +46462226511 Linus Roslund Mechanical designer Office location:…