Journal of Synchrotron Radiation (Nov 2023)

Experimental capabilities for liquid jet samples at sub-MHz rates at the FXE Instrument at European XFEL

  • F. A. Lima,
  • F. Otte,
  • M. Vakili,
  • F. Ardana-Lamas,
  • M. Biednov,
  • F. Dall'Antonia,
  • P. Frankenberger,
  • W. Gawelda,
  • L. Gelisio,
  • H. Han,
  • X. Huang,
  • Y. Jiang,
  • M. Kloos,
  • T. Kluyver,
  • M. Knoll,
  • K. Kubicek,
  • I. J. Bermudez Macias,
  • J. Schulz,
  • O. Turkot,
  • Y. Uemura,
  • J. Valerio,
  • H. Wang,
  • H. Yousef,
  • P. Zalden,
  • D. Khakhulin,
  • C. Bressler,
  • C. Milne

DOI
https://doi.org/10.1107/S1600577523008159
Journal volume & issue
Vol. 30, no. 6
pp. 1168 – 1182

Abstract

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The Femtosecond X-ray Experiments (FXE) instrument at the European X-ray Free-Electron Laser (EuXFEL) provides an optimized platform for investigations of ultrafast physical, chemical and biological processes. It operates in the energy range 4.7–20 keV accommodating flexible and versatile environments for a wide range of samples using diverse ultrafast X-ray spectroscopic, scattering and diffraction techniques. FXE is particularly suitable for experiments taking advantage of the sub-MHz repetition rates provided by the EuXFEL. In this paper a dedicated setup for studies on ultrafast biological and chemical dynamics in solution phase at sub-MHz rates at FXE is presented. Particular emphasis on the different liquid jet sample delivery options and their performance is given. Our portfolio of high-speed jets compatible with sub-MHz experiments includes cylindrical jets, gas dynamic virtual nozzles and flat jets. The capability to perform multi-color X-ray emission spectroscopy (XES) experiments is illustrated by a set of measurements using the dispersive X-ray spectrometer in von Hamos geometry. Static XES data collected using a multi-crystal scanning Johann-type spectrometer are also presented. A few examples of experimental results on ultrafast time-resolved X-ray emission spectroscopy and wide-angle X-ray scattering at sub-MHz pulse repetition rates are given.

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