Open AccessCurrent-Enhanced SASE Using an Optical Laser and its Application to the LCLS
Author(s) -
A. Zholents
Publication year - 2004
Publication title -
osti oai (u.s. department of energy office of scientific and technical information)
Language(s) - English
Resource type - Reports
DOI - 10.2172/833051
Subject(s) - wiggler , physics , undulator , laser , optics , attosecond , electron , pulse (music) , free electron laser , brightness , synchronization (alternating current) , atomic physics , cathode ray , ultrashort pulse , detector , electrical engineering , quantum mechanics , topology (electrical circuits) , engineering
We propose a significant enhancement of the electron peak current entering a SASE undulator by inducing an energy modulation in an upstream wiggler magnet via resonant interaction with an optical laser, followed by microbunching of the energy-modulated electrons at the accelerator exit. This current enhancement allows a reduction of the FEL gain length. The x-ray output consists of a series of uniformly spaced spikes, each spike being temporally coherent. The duration of this series is controlled by the laser pulse and in principle can be narrowed down to just a single, ~;200-attosecond spike. Given potentially absolute temporal synchronization of the x-ray spikes to the energy-modulating laser pulse, this scheme naturally makes pump-probe experiments available to SASE FEL's. We also study various detrimental effects related to the high electron peak current.
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