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Accurate measurement of uncorrelated energy spread in electron beam

Sergey Tomin, Igor Zagorodnov, Winfried Decking, Nina Golubeva, Matthias Scholz

2021Physical Review Accelerators and Beams13 citationsDOIOpen Access PDF

Abstract

We present measurements of slice energy spread at the injector section of the European X-Ray Free Electron Laser for an electron bunch with charge of 250 pC. Two methods considered in the paper are based on measurements at the dispersive section after a transverse deflecting structure (TDS). The first approach uses measurements at different beam energies. We show that with a proper scaling of the TDS voltage with the beam energy the rms error of the measurement is less than 0.3 keV for the energy spread of 6 keV. In the second approach we demonstrate that keeping the beam energy constant but adjusting only the optics we are able to simplify the measurement complexity and to reduce the rms error below 0.1 keV. The accuracy of the measurement is confirmed by numerical modeling including beam transport effects and collective beam dynamics of the electron beam. The slice energy spread measured at the European XFEL for the beam charge of 250 pC is nearly 3 times lower as the one reported recently at SwissFEL for the same cathode material and the beam charge of 200 pC.

Topics & Concepts

Beam (structure)PhysicsCathode rayOpticsEnergy (signal processing)Laser beam qualityM squaredScalingElectronTransverse planeBeam diameterLaserBeam parameter productCathodeAtomic physicsCharge (physics)Computational physicsCross section (physics)Observational errorMetrologyVoltagePower (physics)Beam energyMeasurement uncertaintyIntersection (aeronautics)Particle Accelerators and Free-Electron LasersSAS software applications and methodsAdvanced X-ray Imaging Techniques
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