AI Article Synopsis
- X-ray gas monitors (XGMs) at the European XFEL are crucial for measuring pulse energy and monitoring beam position non-invasively through photo-ionization of rare gas atoms.
- Recent results show that using the Huge Aperture MultiPlier (HAMP) improves signal-to-noise ratios for single-shot pulse energy measurements, achieving a high correlation coefficient of 0.98 with standard detectors.
- The study also examines an intra-train non-linearity in HAMP signals and determines its operational limits, while exploring future potential for XGM use at even higher photon energies up to 50 keV.
Article Abstract
X-ray gas monitors (XGMs) are operated at the European XFEL for non-invasive single-shot pulse energy measurements and average beam-position monitoring. The underlying measurement principle is the photo-ionization of rare gas atoms at low gas pressures and the detection of the photo-ions and photo-electrons created. These are essential for tuning and sustaining self-amplified spontaneous emission (SASE) operation, machine radiation safety, and sorting single-shot experimental data according to pulse energy. In this paper, the first results from XGM operation at photon energies up to 30 keV are presented, which are far beyond the original specification of this device. Here, the Huge Aperture MultiPlier (HAMP) is used for single-shot pulse energy measurements since the standard X-ray gas monitor detectors (XGMDs) do not provide a sufficient signal-to-noise ratio, even at the highest operating gas pressures. A single-shot correlation coefficient of 0.98 is measured between consecutive XGMs operated with HAMP, which is as good as measuring with the standard XGMD detectors. An intra-train non-linearity of the HAMP signal is discovered, and operation parameters to mitigate this effect are studied. The upper repetition rate limit of HAMP operation at 2.25 MHz is also determined. Finally, the possibilities and limits for future XGM operation at photon energies up to 50 keV are discussed.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11226157 | PMC |
| http://dx.doi.org/10.1107/S160057752400331X | DOI Listing |
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