Previous SCIENTÍFika
…with a complex chemistry. Common to all thin-film solar cell technologies is the strong correlation between device performance and nano-structure of the photo-active layer, interfaces and electrodes. With a combination…
…with a complex chemistry. Common to all thin-film solar cell technologies is the strong correlation between device performance and nano-structure of the photo-active layer, interfaces and electrodes. With a combination…
…biological samples. The safety training must be renewed yearly. The reception activates/updates the access card after a completed correct test. Contact the reception at MAX IV for information about access…
…very strong electron pulse compression, Free Electron Laser (FEL) based techniques or a combination of compression and FEL schemes. The proposed project will start by exploring the capabilities in current…
…activates/updates the access card after a completed correct test. Contact the reception at MAX IV for information about access cards. If you experience any technical problems with the online test,…
…complete workflow from data acquisition, over reconstruction and segmentation to physical modelling, including temporal models, i.e. 3D “movies”. We consider it essential to reach this final step without compromising scientific…
…selecting and mounting samples. Mounting Samples manually chevron_right Click “Create new sample” button for manual sample setup. Manual sample is an option for sample mounts or containers incompatible with the…
…your collection endpoint and destination folder Click on the Start button on the left-side panel to start the data download. Figure 8: Select data files and click on Start button…
…hexapod (PDF configuration, minimum SDD ~ 95 mm). The PDF configuration can unfortunately not be used with the Cryostream. Capillary spinner in the default horizontal geometry Capillary spinner in the…
…local folders to download data. 4. Download MAX IV data To transfer the data to the final endpoint, go back to the File Manager by selecting the item in the left-side menu….
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…