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…
…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…
…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…
…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…
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…
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…
…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…
…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…
…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….
…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…
…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…