…the sheet. “There is strong demand for improved anode materials in, for example, lithium-ion batteries with higher capacity, better compatibility with electrolytes, and less sensitivity toward cycling losses compared with…
…for Education and Research Mats Persson says that the funding of research infrastructure must be long-term, given the need for long-term investments required by these organisations and the nature of…
The main tasks of the vacuum team include: Conceptual design, procurement, test, installation and commissioning of vacuum related accelerator upgrades. Assistance with the design and implementation of new vacuum beamline…
…of RF power and the fruitful discussions created a clearer idea about the quality and quantity of important RF power components. A clarified list of manufacturers worldwide for these components…
…based on the wave character of electrons – just like light (electromagnetic waves), electron waves can be scattered and result in interference patterns. This technique is commonly used as a…
…in 2024. Methods X-ray fluorescence (XFM) mapping Using the nano-focused beam, information about the local elemental composition of the illuminated area can be extracted by measuring the secondary X-ray fluorescence…
Come and meet us in Lund to explore how x-ray and neutron scattering can reveal the complexity of food materials Are you working with food research in industry or academia? Are…
The insertion Devices (ID) group is responsible of design, development and operation of Insertion Devices for the different beamlines at MAX IV Laboratory. Each beamline is fed by insertion device,…
…down any issues with beamline control system or equipment. Pictorial logs and screenshots are strongly recommended to be documented in Elogy. After beamtime: Copied data, analysis scripts (if needed), Elogy…
Visualisation of NanoMAX KB system The Mechanical Design Team assists with design of most components in our facility from simple brackets to custom designed endstations, all this in cooperation with…