%0 Conference Paper
%A Eichner, Timo
%A Hülsenbusch, T.
%A Braun, Cora Sophia Lara
%A Hübner, L.
%A Jalas, S.
%A Kirchen, M.
%A Lang, T.
%A Le, T.
%A Leroux, V.
%A Messner, P.
%A Schnepp, M.
%A Trunk, Maximilian
%A Winkelmann, L.
%A Winkler, P.
%A Hartl, I.
%A Maier, Andreas
%T Stability Demands for Laser-systems in Plasma Acceleration
%M PUBDB-2020-05270
%D 2019
%X The LUX laser-plasma-accelerator [1], built in close collaboration of the University of Hamburg and DESY, isdesigned to provide plasma electron beams with enhanced stability as a driver for future compact light sources.After significant in-house development of the driving 200 TW ANGUS laser system, the laser has reached anoperational stability, that enables us to repeatedly demonstrate day-long operation of the laser-plasma acceleratorwith several 10k consecutive electron beams and high availability. The electron beam quality is sufficient to drivea miniature undulator, generating synchrotron-type undulator radiation at wavelengths well below 9 nm.We report on experimental results of the long-term stability of the ANGUS laser system with sub 2
%B Advanced Solid State Lasers
%C 29 Sep 2019 - 3 Oct 2019, Vienna (Austria)
Y2 29 Sep 2019 - 3 Oct 2019
M2 Vienna, Austria
%F PUB:(DE-HGF)24
%9 Poster
%U https://bib-pubdb1.desy.de/record/453469