…beam at the DanMAX beamline is intense enough to pass through the steel sample so that we could investigate the phase changes in real-time while being pulled by the mechanical…
…D110070 E-mail: Linus.Roslund@maxiv.lu.se Phone: +46462226630 Anders Bjermo Mechanical designer Office location: D110070 E-mail: Anders.Bjermo@maxiv.lu.se Phone: +46462226633 Karl Åhnberg Mechanical designer Office location: D110070 E-mail: Karl.Ahnberg@maxiv.lu.se Phone: +46462226631 Johan Selberg Office…
…moment, this is the only available sample environment at the solid-gas endstation. The Catalysis AP cell is currently being upgraded and will be available for users in 2025. For the…
Once completed, the DanMAX experiment station will host two instruments for powder diffraction and one for full-field imaging and tomography. Currently, we have the first of the powder diffraction instruments,…
…deposition is possible Approx distance flange-sample ~ 160 mm at 40o incidence Storage Carousel with 12* sample slots Table with main parameters of the analysis chamber. *Actual number of available…
The Technical Infrastructure team is part of Engineering II and is in charge of Cooling, Ventilation, Compressed air, Cryo and gas systems. The team supports the entire MAX IV laboratory…
…facilities. The workshop is free of charge and will give an overview of the project and discuss the next steps for increased industrial use of large-scale research infrastructures. The program…
…Photoluminescence end station E-mail: Kirill.Chernenko@maxiv.lu.se Phone: +46462226584 Weimin Wang Research Engineer Responsibilities: Solid-state end station E-mail: weimin.wang@maxiv.lu.se Phone: +46462226574 Calle Preger Postdoc Responsibilities: Development and commissioning of Aerodynamic lens sample…
…particular structures. Publication Mikkel Juelsholt, Andy S. Anker, Troels Lindahl Christiansen, Mads Ry Vogel Jørgensen, Innokenty Kantor, Daniel Risskov Sørensen, and Kirsten M. Ø. Jensen Size-induced amorphous structure in tungsten…
…discovered that while the zigzag graphene nanoribbon monolayer sank almost completely into a silicon carbide facet, its lower edge dissolved and mixed with the silicon carbide substrate. The researchers highlighted…