1.5 GeV storage ring
The MAX IV 1.5 GeV storage ring is based on a compact double-bend achromat lattice for the production of bright soft x-ray and UV radiation. The storage ring is a…
The MAX IV 1.5 GeV storage ring is based on a compact double-bend achromat lattice for the production of bright soft x-ray and UV radiation. The storage ring is a…
…of marine regulations aimed at reducing these emissions and the different compliance pathways that ship operators might choose to meet regulations,” said Xiangrui Kong and Erik Thomson, physical chemistry and…
…occur under certain conditions, provides fundamental answers that are essential to the understanding of a myriad of complex processes. Such processes span the entire scientific spectrum, from branches of physics…
…for intelligent alloy design,” explained Alfred Larsson, the author and PhD student at Lund University (LU). The project is coordinated by LU professor Edvin Lundgren and KTH professor Jinshan Pan….
…information. Full overview Short checklist User Policies Call for proposals Find your Beamline DUO Account Access modes Guide: Writing good proposals Guide: Submit a proposal Collaborations & beamtime 2 Before…
…that can help industry get access. The workshop is aimed at R&D Managers, industrial specialists and project leaders at companies who want to learn how they can make use of…
…projects included relies on calls for project proposals that are open to the whole Swedish scientific community. At the beginning of the project, 27 projects had been pre-selected and included…
…would complement the current MAX IV hard X-ray imaging portfolio, ForMAX, DanMAX, and NanoMAX, by enabling higher photon energies, larger beam size, and higher tomography acquisition rates. Beamline presentation (PDF)…
…the arrays pseudo/x and pseudo/y, while a collection of detectors, like the eiger pixel detector and xspress3 fluorescence detector were simultaneously used. Decompressing Eiger and Pilatus data These detectors write…
…publication site (click) . publications about the beamline year publication short summary 2023 Current capabilities of the imaging endstation at the NanoMAX beamline 10.1063/5.0169244 Preliminary performance tests of the new…