Beamline workshop
A workshop for beamlines support is available to MAX IV staff after a short training session (see contact details below). It is intended for small and fast mechanical work on…
A workshop for beamlines support is available to MAX IV staff after a short training session (see contact details below). It is intended for small and fast mechanical work on…
…the research infrastructure and who to contact. We will give you presentations of the facility, a guided tour of the lab and the possibility to ask all your questions about how…
Before submitting a proposal to NanoMAX Contact the beamline staff and discuss the proposed experiment. Mayor points to consider are the method(s) to be used, the nature and the mounting…
…Please note: All users visiting MAX IV must be added as a participant in a session before they can apply for an access card. Please contact the person responsible in…
…the only user in the metal industry to take advantage of MAX IV. To learn more about other industrial users and their experiments, check MAXESS Industry Arena for more cases or contact us….
…Download the FragMAX information brochure (PDF) here: FragMAX folder.pdf. Contact us Please get in touch if you are planning to apply for access, or if you have questions. Reach out:…
…also interested in doing industrial research at MAX IV? Don’t hesitate to contact our Industrial Relations Office. Feel free to be inspired by what other industrial companies have researched – have a look at…
…a user have to perform in DUO. If you have questions or notice that something is missing in the guides, please feel free to contact the MAX IV User Office….
…For further details, tentative programme and registration, visit https://nffa.eu/summer-school-2024 Deadline for registration: 30 April 2024 For questions or additional information feel free to contact us writing to training@nffa.eu and datamanagement@nffa.eu….
…(2024), DOI: https://doi.org/10.1002/solr.202301018 J. Keller et al., High-concentration silver alloying and steep back-contact gallium grading enabling copper indium gallium selenide solar cell with 23.6% efficiency, Nat Energy (2024), DOI: https://doi.org/10.1038/s41560-024-01472-3…