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Experimental demonstration of enhanced self-amplified spontaneous emission by photocathode temporal shaping and self-compression in a magnetic wiggler

Zhen Zhang, Joseph Duris, James MacArthur, A. Zholents, Zhirong Huang, Agostino Marinelli

2020New Journal of Physics35 citationsDOIOpen Access PDF

Abstract

Abstract In this paper we demonstrate experimentally the generation of attosecond soft x-ray free-electron laser (XFEL) pulses based on a novel approach to enhanced self-amplified spontaneous emission. Instead of utilizing an external laser, we shape the electron beam at the cathode by laser pulse stacking. We enhance the high-current spike in the beam profile through a self-compression process which uses short-range coherent synchrotron radiation in a wiggler and a downstream magnetic chicane. The undulator taper is then matched with the energy chirp along the beam for attosecond XFEL generation. Start-to-end simulations are performed to demonstrate the proposed method. The measured spectra suggest that a ∼250 as pulse duration is achieved at ∼940 eV in the experiment.

Topics & Concepts

WigglerPhysicsUndulatorPhotocathodeOpticsLaserSynchrotron radiationCathode rayBeam (structure)Free-electron laserUltrashort pulseAttosecondElectronQuantum mechanicsParticle Accelerators and Free-Electron LasersLaser-Matter Interactions and ApplicationsAdvanced X-ray Imaging Techniques
Experimental demonstration of enhanced self-amplified spontaneous emission by photocathode temporal shaping and self-compression in a magnetic wiggler | Litcius