Beamline optics
…coherent part of the beam, generating a new virtual source for the experimental stations. NanoMAX beamline optics layout The optical beamline components for the beam shaping and beam transport up…
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Beamline optics
…InSb ∆E/E≈4·10⁻⁴ (1.8-15 keV) ML ∆E/E=0.01 (1.8-15 keV) Monochomator throughput @ 5 keV >70% crystal >50% ML Optics Unfocused/ Rhodium coated Si-mirror, Be-lenses, Harmonic rejection mirror Polarization Linear Pulse duration…
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…it would have been possible without your support and engagement. Despite our financial difficulties, we have committed to remain open for business 2024. Looking forward to a new year of…
Accelerators
The MAX IV facility consists of a 3 GeV storage ring, a 1.5 GeV storage ring, and a linear accelerator (fed by two guns) that serves as a full-energy injector to the rings, but also…
Electrochemistry
The electrochemistry setup which is designed for performing photoemission measurements of the solid-liquid or liquid-gas interfaces in a dip-and-pull geometry. A three electrode setup can be dipped and then pulled…
Solid-state end station
…connected by a radial distribution chamber (RDC), i.e., analysis chamber (ANA), preparation chamber (PREP), storage chamber (STO) and load-lock chamber (LL). The design of the system allows sample transfer from…
Atomic Force Microscope
…in late 1990-ies. Despite seemingly old, it is still competitive with the brand-new AFMs in terms of high-resolution topography determination. It is capable of both contact and tapping modes, allowing…
Sample holders
…pins compatible usable at the NanoMAX imaging station. Sample preparation and mounting is essential for a successful beamtime. Discuss the details early with the beamline staff / your local contact….
Access modes
…MAX IV, offering a single scientific project beamtime. To see if MAX IV has an open call for proposal and when the submission deadline is, please visit the Call for…
Technical Notes
…Internal_Note_20150129_MIK_Analysis_150130.pdf Internal_Note_20150930_MW_Threshold.pdf insertion devices Internal_Note_20090922_Insertion_Devices_for_the_MAX_IV_3_GeV_Storage_Ring.pdf Internal_Note_20100215_Insertion_Devices_for_the_MAX_IV_3_GeV_Ring.pdf Internal_Note_20101209_Elliptically_Polarising_Undulators_with_11_mm_Magnetic_Gap_at_the_MAX_IV_3_GeV_Ring.pdf Internal_Note_20111110_Comparison_Brilliance_MAX_IV_NSLS-II.pdf Internal_Note_20111220_Elliptically_polarizing_undulators_for_the_Arpes_beamline_at_the_Solaris_Light_Source.pdf RF cavities Internal_Note_20240410 Harmonic Cavity Parameters for Flat Potential Arbitrary Order R1 beam dynamics Internal_Note_20100820_M5_Pulsed_Sextupole_Injection_120611.pdf Internal_Note_20111102_Updated_Lattice_120611.pdf Internal_Note_20120313_Updated_Lattice_120611.pdf Internal_Note_20120904_Updated_Lattice_120913.pdf Internal_Note_20140526_High-chromaticity_1.5GeV_140604.pdf insertion devices…