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A: Fachverband Atomphysik
A 22: Interaction with VUV and X-ray light
A 22.9: Poster
Dienstag, 1. März 2016, 16:30–19:00, Empore Lichthof
X-Ray Movie Camera for time resolved single particle imaging: raytracing the focussing multilayer optics — •Björn Senfftleben1, Leonie Flückiger1,2, Katharina Kolatzki1, Bruno Langbehn1, Maria Müller1, Mario Sauppe1, Anatoli Ulmer1, Jannis Zimbalski1, Julian Zimmermann1, Tobias Zimmermann1, Cédric Bomme3, Stefan Düsterer3, Benjamin Erk3, Marion Kuhlmann3, Daniel Rolles3,4, Dimitrios Rompotis3, Rolf Treusch3, Christoph Bostedt5,7, Tais Gorkhover5, Torsten Feigl6, Thomas Möller1, and Daniela Rupp1 — 1TU Berlin — 2La Trobe University, Melbourne — 3DESY, Hamburg — 4Kansas State University — 5SLAC, Menlo Park — 6optiX fab, Jena — 7Northwerstern University / Argonne National Lab, Chicago
Short wavelength free-electron lasers (FELs) can be used to image nanostructures via x-ray scattering. Time-resolved studies of non-reproducible structures often lack of information on the initial state of the structure. A novel setup named x-ray movie camera overcomes this limitation by taking two separate time-delayed images of the same gas-phase particle by two beams from different directions. To optimize and overlap the micron foci, which are created by two opposed ellipsoidal multilayer mirrors, precise alignment is required. Raytracing the setup allows to simulate the experimental alignment and reveals the quality and shape of desired focus. By taking the adjustment operations and their effect into account the experiment’s and the simulation’s data can be compared. The results from raytracing are presented.