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  Wüstefeld, G.; Jankowiak, A.; Knobloch, J.; Ries, M.: Simultaneous Long and Short Electron Bunches in the BESSY II Storage Ring. In: Proceedings of IPAC2011, 4 - 9 September 2011, San Sebastián, Spain, 2011. - ISBN 978-92-9083-366-6, p. 2936-2938

Abstract:
We present first ideas of a scheme to develop BESSY II into a variable electron pulse length storage ring. The final goal is, to fill BESSY II with short bunches of 1.5 ps length (rms) and long bunches of 15 ps length simultaneously in the presently applied user optics. All insertion devices are operated as usual, i.e. the helical undulators and 7 T-field insertions. Long bunches of 1.5 mA current per bunch, twice the value of the present user optics, are filled in each second bucket. The other buckets can be filled with short bunches of up to 0.8 mA. The lower current value is required to avoid increase in the bunch length and bunch energy spread, predicted by scaling laws. The total current is e.g. limited by the HOM damping capabilities of the sccavities and the machine impedances. This scheme is achievable with recent developments in sc-rf cavity technology driven by requirements of high current cw applications like for the energy recovering linacs (ERLs). These developments seem to make it feasible to install high gradientHOMdamped multi-cell cavities in electron storage rings. With an ppropriate choice of the cavityresonance frequencies a beating of the effective longitudinal focusing voltage at the stable fixed points can be introduced and leads to different zero current bunch lengths. Basic parameters of this scheme are presented.