David Olsson

TL;DR: In this paper, simulations for the MAX IV 3 GeV storage ring were presented and the machine requirements as well as the achievable performance for timing users were discussed, and it is shown that PPRE can increase the transverse emittance of one bunch in the bunch train by an incoherent betatron excitation.

TL;DR: In this article, the authors investigated the stored beam perturbations due to quadrupole fields arising during the MIK pulse, originating from its inner coating, and concluded that MIK at MAX IV 3 GeV has the potential to deliver quasi-transparent injections with good capture efficiency.

Abstract: The MAX IV 1.5 GeV ring is an electron storage ring for production of synchrotron light in the IR to soft X-ray spectral range. The ring will deliver light to its first users during 2018. Bunch-By-Bunch (BBB) feedback has been needed to suppress coupled-bunch mode instabilities (CBMIs), and the feedback has this far been provided in all three planes by a single stripline kicker. This is done by combining the horizontal and vertical baseband feedback signals with the longitudinal feedback signal that is upconverted to the 150 MHz 250 MHz range. The combined signal is then fed to two stripline electrodes. The layout of the BBB feedback system in the MAX IV 1.5 GeV ring is presented in this paper. Results from instability studies are also discussed.