Remote Experiments at BioMAX
…to and from BioMAX, with MXCuBE3, ISPyB and the computing environment at MAX IV, and the tools for handling the data and for remote access. New and non-frequent users should…
…to and from BioMAX, with MXCuBE3, ISPyB and the computing environment at MAX IV, and the tools for handling the data and for remote access. New and non-frequent users should…
…allowed us to measure extremely efficiently.” Photo: Nick Fewings/Unsplash Publication Krieger, J.A. et al. Weyl spin-momentum locking in a chiral topological semimetal open_in_new Nat Commun 15, 3720 (2024) 10.1038/s41467-024-47976-0 open_in_new…
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…new experimental evidence of parallel spin-momentum locking in chiral materials. Results from the spin branch of the Bloch experiment station contributed to the discovery. The dawning of new interpretation for…
…that you always contact your beamline of choice to discuss your suggested experiment with the beamline staff before sending in a proposal. Missing Experimental Report Before submitting a new proposal…
At the end of 2023, MAX IV will provide WISE with conceptual design reports for three material sciences beamlines. One of the proposed beamlines will focus on diffraction, specifically providing…
At the end of 2023, MAX IV will provide WISE with conceptual design reports for three material sciences beamlines. One of the proposed beamlines will focus on imaging, specifically providing…
…you have recently been assigned a TLD, a personal dosimeter is not required until your new TLD is available. During visits, it is sufficient that the person(s) responsible for the…
…criteria for materials for new ferroelectrics in the future.” Publication P. Nukala et al Reversible oxygen migration and phase transitions in hafnia-based ferroelectric devices open_in_new Science (2021) DOI: 10.1126/science.abf3789 open_in_new…