Beamline optics
For detailed description of the HIPPIE optical design and performance, please see the beamline publication: HIPPIE: a new platform for ambient pressure X-ray photoelectron spectroscopy at the MAX IV Laboratory…
For detailed description of the HIPPIE optical design and performance, please see the beamline publication: HIPPIE: a new platform for ambient pressure X-ray photoelectron spectroscopy at the MAX IV Laboratory…
MAX IV Laboratory and Uppsala University invite you to participate in a half-day workshop to hear the status update and discuss the latest developments of the new spectroscopy beamline project for…
Driven by the need for a new, global food system with more plant-based foods and sustainable packaging alternatives, food production and processing companies team up with MAX IV to access…
Besides collaborating with users from academia and industry, MAX IV is an active member of diverse networks bringing together research infrastructures from all over Europe. These networks aim to improve…
The ICE (Ions in Coincidence with Electrons) end station is a mobile end station that is designed to be compatible with a number of MAX IV LDM-relevant beamlines. By using a combination of multi-coincidence…
Internal MAX IV projects Microfluidic cells using 3D printing Motion-control test bench using IcePap controllers Cryogenic test bench for materials testing down to 10K Fast (100 fps) imaging detector to…
Here we describe the intent, expectation, application, and evaluation procedure for LTP access at DanMAX using the DK Priority access time. Intentions of the LTP program at DanMAX: The LTPs…
The LEAPS-INNOV project is offering seed funding for joint projects between LEAPS facilities and users. Two types of initiatives can be supported with approximately 100k€ for 18 months projects: I)…
Essentials A sample characterization lab featuring a Hitachi FlexSEM 1000 ii and two optical microscopes is available for all users of MAX IV Laboratory. It is located at NanoMAX beamline,…
On November 1, 2022, we announced the opening of ForMAX, a beamline specially designed primarily for research on new, sustainable wood-based materials from the forest. The beamline also provides new…