Wuppertal 2015 – scientific programme
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AKBP: Arbeitskreis Beschleunigerphysik
AKBP 4: FEL, Seeding and Thomson Scattering
AKBP 4.3: Talk
Monday, March 9, 2015, 17:15–17:30, F.10.01 (HS 4)
Experimental Design of Optical Free-Electron Lasers in the Traveling-Wave Thomson-Scattering geometry — •Klaus Steiniger1,2, Michael Bussmann1, Arie Irman1, Axel Jochmann1, Richard Pausch1,2, Fabian Roeser1, Roland Sauerbrey1, Ulrich Schramm1,2, and Alexander Debus1 — 1Helmholtz-Zentrum Dresden-Rossendorf, 01328 Dresden — 2TU Dresden, 01062 Dresden
Traveling-Wave Thomson-Scattering (TWTS) realizes optical free-electron lasers (OFEL) from the extreme ultraviolet to the X-ray range with existing electron accelerators and high-power laser systems. In TWTS ultrashort laser pulses and relativistic electron bunches are utilized in a side-scattering geometry where laser pulse and electron bunch direction of motion enclose an interaction angle. The laser electric field thereby provides the optical undulator field for radiation generation. When the electrons traverse the laser beam cross-section, TWTS provides continuous overlap of electrons and laser pulse by employing a laser pulse-front tilt. Long optical undulators are thus realized in TWTS allowing for microbunching of the electron beam leading to the realization of TWTS OFELs. We present the scaling laws for the electron beam and laser pulse requirements to operate TWTS OFELs and show with example scenarios that TWTS OFELs can be realized with existing radio-frequency electron accelerators such as ELBE at HZDR as well as laser-wakefield accelerated electrons. We detail the necessary equipment in a TWTS OFEL experiment and discuss how current experimental limitations affect the design of TWTS OFEL setups.