Authors
Ulrich Dorda, B Marchetti, J Zhu, F Mayet, W Kuropka, T Vinatier, G Vashchenko, K Galaydych, PA Walker, Daniel Marx, R Brinkmann, R Assmann, NH Matlis, A Fallahi, FX Kaertner
Publication date
2018/11/12
Journal
Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment
Volume
909
Pages
239-242
Publisher
North-Holland
Description
We present a status update on the dedicated R&D facility SINBAD which is currently under construction at DESY. The facility will host multiple independent experiments on the acceleration of ultra-short electron bunches and novel, high gradient acceleration methods. The first experiment is the ARES-experiment with a normal conducting 100 MeV S-band linac at its core. We present the objectives of this experiment ranging from the study of compression techniques to sub-fs level to its application as injector for various advanced acceleration schemes e.g. the plans to use ARES as a test-site for DLA experiments in the context of the ACHIP collaboration. The time-line including the planned extension with laser driven plasma-wakefield acceleration is presented. The second initial experiment is AXSIS which aims to accelerate fs-electron bunches to 15 MeV in a THz driven dielectric structure and subsequently create X …
Scholar articles
U Dorda, B Marchetti, J Zhu, F Mayet, W Kuropka… - Nuclear Instruments and Methods in Physics Research …, 2018