FLP: what is in the 55 cm between the sections?
VS: screen, BPM, 2 bellows with correctors
FLP: the simpliefied diode provides less focussing, has this been quantified?
RB: yes, it is up to a factor 2
VS: to ensure emittance compensation, is it necessary to measure emittance before the booster?
RB: no, beam diameter is enough
YK: why does the emittance decrease in the bunch compressor?
RB: that is due to space charge effects (same effect as further upstream around 7 m)
Discussion on alternative electron source configurations
RI: why is there no diagnostic section in the case of the2.5-cell design (CERN gun)?
RB: there is no space for it
VS: in general, we should prefer solutions with fewer solenoids, they allow for more diagnostics
YK: is the harmonic gradient of 30 MV/m for the 2-frequency cavity realistic?
JYR: yes, we have verified that it's okay
FLP: why do we keep the velocity bunching in the 2-frequency solution?
RB: this is to keep the initial current low, as required for low emittance
VS: what about a separate third-harmonic cavity after the first (one-frequency) cavity?
RB: for the 2.5-cell case (CERN gun) this is not an option, the exit energy is too high; for the 1.5-cell case this could be a solution, but the matching will be very challenging
JYR: what about a 12-GHz linearizer after the CERN gun?
RB: this makes no sense
MP starts a brief discussion on the use of FEAs in RF guns. We should revisit the effect of back-bombarding in the case of an RF gun. FLP points out that the time-structure of our current pulser is also oscillating. VS mentions that dark current will also be an issue when operating with FEAs. RB recalls a paper where the use of field emitters in an RF gun is described.
Discussion on laser pulse shaping (VS), Gaussian versus rectangular. RB points out that in principle Gaussian profile can yield better slice emittance than rectangular profile, but the solution will be harder to find.
JYR suggests to consider the option “pulser + 1.5-cell cavity”.
VS: is the CERN 2.5-cell cavity side-coupled? At SLAC the performance improved considerably after symmetrizing the RF input.
MP: there are two models, a side-coupled one and a symmetrized one. We will need the symmetrized one.
FLP stresses that we should not only push for a 1-MV pulser but also reoptimize the pulser technology, which was developed for an FEA source but is now used for a photogun.
