Transmission measurement at the Bernina branch of the Aramis Beamline of SwissFEL.
Pavle JuranicKai TiedtkeShigeki OwadaTakahiro TanakaUlf JastrowAndrey SorokinLuc PattheyRoman MankowskyMarkus DegenhardtYunieski ArbeloChristopher ArrellJohn SmedleyJen BohonRolf FollathPublished in: Journal of synchrotron radiation (2019)
The transmission of the optical components of the Bernina branch of the Aramis beamline at SwissFEL has been measured with an X-ray gas monitor from DESY and compared with a PSI gas detector upstream of the optical components. The transmission efficiencies of the Mo, Si and SiC mirror coatings of the Aramis beamline and the various other in-beam components were evaluated and compared with theoretical calculations, showing an agreement of 6% or better in all cases. The experiment has also shown the efficacy of the high-harmonic rejection mirrors at the Bernina branch of the Aramis beamline at SwissFEL, and characterized the transmission efficiency of the on-line spectrometer in the Aramis beamline. The theoretical transmission of the mirror coatings match the experimental data to within 7%. The accuracy of these measurements was checked against a radiative bolometer from a Japanese collaboration and found to agree to a level of 4% or better. Further comparisons with a diamond detector from a US-based inter-institute collaboration demonstrated a good agreement for the attenuator settings of the beamline.