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O: Oberflächenphysik
O 36: Poster (II)
O 36.87: Poster
Donnerstag, 25. März 1999, 20:00–22:30, Zelt
Synchronization of a Ti:Sapphire Laser to the BESSY Synchrotron: Time-Resolved Photoemission — •Diana Pop, B. Winter, T. Quast, I. Will, M.T. Wick, A. Liero, Ch. Pettenkofer, R. Rudolph, J. Gatzke, and I.V. Hertel — Max-Born-Institut, Rudower Chaussee 6, 12489 Berlin
The synchronization of a modelocked ultrafast Ti:sapphire laser
to the Berlin Electron Storage Ring for Synchrotron Radiation
(BESSY) is described. The technique, based on a phase-locked
loop using analog high harmonic mixing, may be easily applied
for either single, multi or hybrid bunch operation of the
synchrotron. Test experiments on the dynamics of laser-excited
carriers in InSe, specifically on the decay of the surface
photovoltage (SPV), performed at BESSY I demonstrate the
potential and reliability of this technique, and provide the
basis for future time-resolved laser/synchrotron experiments at
BESSY II. The Max-Born-Institute currently establishes a User
Facility at BESSY II, a third generation synchrotron, dedicated
to investigate the dynamics of photon-induced processes by
time-synchronized laser and synchrotron-undulator pulses in a
pump-probe scheme. Two-color two-photon photoemission (2C-2PPE)
with excitation photon energies up to 350 eV will be the main
experimental method to be applied. The facility will become
available in 1999.