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…
Search Results for: 구미오피VS070.cŐm կ구미오피ಫ구미OPᗙ구미OPю구미오피ᛪ구미오피
Beamline optics
FemtoMAX performance2024 Energy range 1.8 -15 keV (0.8 – 6.8 Å) Photon source 2 x in-vacuum undulators U15 Monochromator Double Crystal Monochromator with InSb(111) crystals. 3 x Multi-Layer Mirror Photons…
Merry Christmas and a happy New Year!
…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
…an operator. We are responsible for delivering a stable high-quality beam to the users. This means operating and controlling the accelerator complex consisting of the 3 GeV linac, the 1.5…
Electrochemistry
…to discuss electrolyte compatibility Potentiostat Bio-Logic SP200. E range +/- 10V. I range +/- 500 mA. Glove box A custom glove box can be attached to allow handling/loading of samples…
Solid-state end station
The solid-state end station (SSES) is designed for studying solid-state material via advanced experimental techniques in an ultra-high vacuum (UHV) environment. The end station is composed of four UHV chambers…
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
…OMNY pin sample holders for the NanoMAX Imaging Station. Left: sample pins compatible usable at the NanoMAX imaging station. Sample preparation and mounting is essential for a successful beamtime. Discuss…
Access modes
…of fast access proposals can be found here. Proprietary access chevron_right The complete beamline setup is available for Proprietary users, please contact the MAX IV Industrial Relations Office for further…
Technical Notes
R3 beam dynamics High-Chromaticity_Optics_for_the_MAX_IV_3_GeV_Storage_Ring.pdf Internal_Note_20090902_Updated_Lattice_120614.pdf Internal_Note_20100318_Updated_Lattice_120614.pdf Internal_Note_20100512_Pulsed_Magnet_Injection_120612.pdf Internal_Note_20101101_Updated_Lattice_120614.pdf Internal_Note_20101203_Magnet_Synchronization_120612.pdf Internal_Note_20110117_Updated_Lattice_120612.pdf Internal_Note_20111124_Updated_Lattice_120611.pdf Internal_Note_20121107_Updated_Lattice_140129.pdf Internal_Note_20130724_OCO_Modeling_141009.pdf 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…