[PDF][PDF] Nanosecond timing and synchronization scheme for holographic pump–probe studies at the MID instrument at European XFEL
M Osterhoff, M Vassholz, HP Hoeppe… - Journal of …, 2021 - journals.iucr.org
Journal of Synchrotron Radiation, 2021•journals.iucr.org
Single-pulse holographic imaging at XFEL sources with 1012 photons delivered in pulses
shorter than 100 fs reveal new quantitative insights into fast phenomena. Here, a timing and
synchronization scheme for stroboscopic imaging and quantitative analysis of fast
phenomena on time scales (sub-ns) and length-scales (≲ 100 nm) inaccessible by visible
light is reported. A fully electronic delay-and-trigger system has been implemented at the
MID station at the European XFEL, and applied to the study of emerging laser-driven …
shorter than 100 fs reveal new quantitative insights into fast phenomena. Here, a timing and
synchronization scheme for stroboscopic imaging and quantitative analysis of fast
phenomena on time scales (sub-ns) and length-scales (≲ 100 nm) inaccessible by visible
light is reported. A fully electronic delay-and-trigger system has been implemented at the
MID station at the European XFEL, and applied to the study of emerging laser-driven …
Single-pulse holographic imaging at XFEL sources with 1012 photons delivered in pulses shorter than 100 fs reveal new quantitative insights into fast phenomena. Here, a timing and synchronization scheme for stroboscopic imaging and quantitative analysis of fast phenomena on time scales (sub-ns) and length-scales (≲100 nm) inaccessible by visible light is reported. A fully electronic delay-and-trigger system has been implemented at the MID station at the European XFEL, and applied to the study of emerging laser-driven cavitation bubbles in water. Synchronization and timing precision have been characterized to be better than 1 ns.
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