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A: Fachverband Atomphysik
A 22: Attosecond Physics II
A 22.2: Talk
Wednesday, March 4, 2009, 17:00–17:15, VMP 8 R208
Laser-Assisted Photoemission from surface/adsorbate systems — •Guido Saathoff1, Luis Miaja-Avila2, Stefan Mathias3, Jing Yin2, Chan La-o-vorakiat2, Michael Bauer4, Martin Aeschlimann3, Margaret Murnane2, and Henry Kapteyn2 — 1MPI für Quantenoptik, Garching — 2Jila and University of Colorado, Boulder, CO — 3TU Kaiserslautern — 4Universität Kiel
Laser-assisted photoemission (LAPE) and Auger
decay (LAAD) have evolved into a powerful tool for time-resolved
studies of the femtosecond-to-attosecond dynamics of highly-excited
states in atoms. Recently we have extended LAPE to clean solid
surfaces [1] and a detailed study has allowed the discrimination of
surface-LAPE against adverse above-threshold photoemission (ATP)
caused by the high laser intensities required for dressing [2]. This
has led to the first direct time-resolved observation of the
lifetime of a core-excited state of an atom adsorbed onto a surface.
By combining LAPE with LAAD, we measured the 4d−1 core level
lifetime of Xenon on Pt(111) to be 7± 1 fs [3]. We also show
that using longer laser wavelengths enhances LAPE and LAAD while ATP
is strongly suppressed. This will allow for time-resolved
measurements on low-energy Auger electrons, which are usually buried
by ATP. Our results open up time domain measurements of electronic
processes in surface/adsorbate systems, which are fundamental to the
understanding of surface chemistry.
[1] L. Miaja-Avila et al.,Phys Rev. Lett. 97, 113604 (2006)
[2] G. Saathoff et al., Phys. Rev. A, 77, 022903 (2008)
[3] L. Miaja-Avila et al., Phys.Rev. Lett., 101, 046101 (2008)