1 to 3 of 3 Results
May 2, 2024
Kurtz, Felix; Dauwe, Tim Niklas; Yalunin, Sergey; Storeck, Gero; Horstmann, Jan Gerrit; Böckmann, Hannes; Ropers, Claus, 2024, "Figure source data for "Nonthermal phonon dynamics and a quenched exciton condensate probed by surface-sensitive electron diffraction"", https://doi.org/10.17617/3.JBZHN2, Edmond, V3
Figure source data supporting the publication "Nonthermal phonon dynamics and a quenched exciton condensate probed by surface-sensitive electron diffraction". All plots from the manuscript can be replotted using the data sets in the folder and the Jupyter Notebook plot_script.ipy... |
Feb 20, 2024
Gaida, John; Lourenço-Martins, Hugo; Sivis, Murat; Rittmann, Thomas; Feist, Armin; García de Abajo, F. Javier; Ropers, Claus, 2024, "Data for: Attosecond electron microscopy by free-electron homodyne detection", https://doi.org/10.17617/3.8MH95A, Edmond, V1
Figure source data supporting the publication "Attosecond electron microscopy by free-electron homodyne detection" All plots from the manuscript can be replotted using the data sets in the folder data and the Jupyter Notebook plot_script.ipynb. You can use this data repository in... |
Jan 31, 2024
Codutti, Agnese; Charsooghi, Mohammad; Marx, Konrad; Cerdá Doñate, Elisa; Munoz, Omar; Zaslansky, Paul; Teletzki, Vitali; Robinson, Tom; Faivre, Damien; Klumpp, Stefan, 2024, "Escape problem of magnetotactic bacteria - Physiological magnetic field strength help magnetotactic bacteria navigate in simulated sediments", https://doi.org/10.17617/3.KWU1HZ, Edmond, V1
Bacterial motility is typically studied in bulk solution, while their natural habitats often are complex environments. Here, we produced microfluidic channels that contained sediment-mimicking obstacles to study swimming of magnetotactic bacteria in a near-realistic environment t... |