Applied Sciences (Oct 2017)

The FLASH Facility: Advanced Options for FLASH2 and Future Perspectives

  • Bart Faatz,
  • Markus Braune,
  • Olaf Hensler,
  • Katja Honkavaara,
  • Raimund Kammering,
  • Marion Kuhlmann,
  • Elke Ploenjes,
  • Juliane Roensch-Schulenburg,
  • Evgeny Schneidmiller,
  • Siegfried Schreiber,
  • Kai Tiedtke,
  • Markus Tischer,
  • Rolf Treusch,
  • Mathias Vogt,
  • Wilfried Wurth,
  • Mikhail Yurkov,
  • Johann Zemella

DOI
https://doi.org/10.3390/app7111114
Journal volume & issue
Vol. 7, no. 11
p. 1114

Abstract

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Since 2016, the two free-electron laser (FEL) lines FLASH1 and FLASH2 have been run simultaneously for users at DESY in Hamburg. With the installation of variable gap undulators in the new FLASH2 FEL line, many new possibilities have opened up in terms of photon parameters for experiments. What has been tested so far is post-saturation tapering, reverse tapering, harmonic lasing, harmonic lasing self-seeding and two-color lasing. At the moment, we are working on concepts to enhance the capabilities of the FLASH facility even further. A major part of the upgrade plans, known as FLASH2020, will involve the exchange of the fixed gap undulators in FLASH1 and the implementation of a new flexible undulator scheme aimed at providing coherent radiation for multi-color experiments over a broad wavelength range. The recent achievements in FLASH2 and the current status of plans for the further development of the facility are presented.

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