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Schlagwörter:
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Zusammenfassung:
We report on the design and characterization of a new apparatus for performing quantum-state
resolved surface scattering experiments. The apparatus combines optical state-specific molecule
preparation with a compact hexapole and a Stark decelerator to prepare carrier gas-free pulses
of quantum-state pure CO molecules with velocities controllable between 33 and 1000 m/s with
extremely narrow velocity distributions. The ultrahigh vacuum surface scattering chamber includes
homebuilt ion and electron detectors, a closed-cycle helium cooled single crystal sample mount
capable of tuning surface temperature between 19 and 1337 K, a Kelvin probe for non-destructive
work function measurements, a precision leak valve manifold for targeted adsorbate deposition,
an inexpensive quadrupole mass spectrometer modified to perform high resolution temperature
programmed desorption experiments and facilities to clean and characterize the surface.