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  Neumann, A.; Alberdi-Esuain, B.; Birke, T.; Echevarria, P.; Eichel, D.; Falkenstern, F.; Fleischhauer, R.; Frahm, A.; Göbel, F.; Heugel, A.; Hoffmann, F.; Huck, H.; Kamps, T.; Klauke, S.; Klemz, G.; Kolbe, J.; Kuske, B.C.; Kuszynski, J.; Kühn, J.; Mistry, S.; Ohm, N.; Ploetz, H.; Rotterdam, S.; Schappeit, O.; Schindhelm, G.; Schröder, C.; Schuster, M.; Stein, H.; Suljoti, E.; Tamashevich, Y.; Tannert, M.; Ullrich, J.; Ushakov, A.; Völker, J.; Wang, C.: bERLinPro Becomes SEALab: Status and Perspective of the Energy Recovery Linac at HZB. In: Frank Zimmermann ... [Ed.] : IPAC2022 : Proceedings of the 13th International Particle Accelerator Conference, in Bangkok, Thailand, 12–17 June 2022Geneva: JACoW, 2022. - ISBN 978-3-95450-227-1, p. TUPOPT048/1-4
  https://jacow.org/ipac2022/papers/tupopt048.pdf

Open Access Version

Abstract:
Since end of the year 2020 the energy recovery linac (ERL) project bERLinPro of Helmholtz-Zentrum Berlin has been officially completed. But what is the status of this facility, the next scientific goals in the framework of accelerator physics at HZB, what are the perspectives? To reflect the continuation of this endeavor and the broadening of applications of this machine from high current SRF based energy recovery concept up to an ultrafast electron diffraction (UED) facility producing shortest electron pulses, the facility is now named Sealab, Superconducting RF Electron Accelerator Laboratory. In this contribution, an overview of lessons learned so far, the status of the machine, the coming set up and commissioning steps with an outlook to midterm and future applications will be given. In summary, Sealab will expand, including the ERL application, and become a general accelerator physics and technology test machine to employ UED as a first study case and will also be an ideal testbed to investigate new control schemes based on digital twins or machine learning methods.