FAQ
…with a 100 nm beam and therefore 100 nm steps, you would need N = 100 x 100 = 10 000 scan points. Reducing the beam/step size or increasing the…
…with a 100 nm beam and therefore 100 nm steps, you would need N = 100 x 100 = 10 000 scan points. Reducing the beam/step size or increasing the…
…and community-building efforts, and collaborations for national and international research. 50% more paid industry experiments The report concludes that the number of paid industry experiments at MAX IV (proprietary experiment…
MAX IV has a number of policies surrounding User access, please make sure you have read through these policies in full before your visit to MAX IV. You will find…
…as the user community is growing rapidly and more scientific disciplines are represented as users at MAX IV. In view of this FASM will introduce a number of proposals aimed…
…height) at the sample position, resolution step 1 um, scanning area 1 x 1 cm. 11. Electromagnet for magnetic experiments Magnet: GMW 3480 Model. Max Magnetic field at the sample:…
…A single quantum of beamtime available for scheduling is the so-called “shift”, which is equal to 4 hours. Therefore, 1 week of beamtime is equal to 36 shifts (6 shifts/day,…
The Government asks a number of referral bodies, including universities, government agencies, and other organisations, to give input and suggestions to their proposed research and innovation politics. Here is a…
…days) or a full week (5-6 days). Since the number of shifts available won’t be known until the scheduling is complete, we advise all users to apply for 15 shifts…
…viable photoelectrode with adjustable Schottky junction. The photoelectrode was developed by growing a tailored number of uniform graphene layers on cubic silicon carbide (3C-SiC) semiconductor, the latter of which captures…
The optical layout of beamlines at MAX IV are typically designed in close collaboration with our optics simulation experts. MAX IV uses a number of simulation tools to perform ray…