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Surfing the SAW: Visualizing the oscillation of Au(111) surface atoms

Abstract:
In this paper we report the observation of surface acoustic waves using a scanning tunneling microscope (STM). As the STM's control electronics has a bandwidth limit in the kHz range, SAWs at typical frequencies of MHz to GHz cause a loss of contrast which can be clearly seen on an atomic scale. In order to access the amplitude and phase of a SAW, we introduced a heterodyning type STM, the scanning acoustic tunneling microscope (SATM). Contrary to the STM technique, the SATM measures snapshots of the state of oscillation. On the nanometer scale, two contributions to the phase and amplitude contrast are discussed. First, the SAWs phase delay gives a mainly linear dependence on the distance of the source. Second, the atomic oscillation trajectories within the SAW lead to a signal contribution that is made up of the shape of the oscillation trajectory and the local topography. On an atomic scale where the influence of the phase delay on the contrast can be neglected the oscillation trajectories of single surface atoms are studied. Finally, the atomically resolved phase and amplitude images are compared to simulated data.
Publication status:
Published

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Institution:
University of Oxford
Division:
MPLS
Department:
Physics
Sub department:
Condensed Matter Physics
Role:
Author


Publisher:
IEEE
Host title:
1997 IEEE ULTRASONICS SYMPOSIUM PROCEEDINGS, VOLS 1 and 2
Volume:
1
Pages:
511-514
Publication date:
1997-01-01
ISSN:
1051-0117
ISBN:
0780341538


Pubs id:
pubs:151514
UUID:
uuid:f59f9529-5770-41fb-9884-554396b86063
Local pid:
pubs:151514
Source identifiers:
151514
Deposit date:
2012-12-19
ARK identifier:

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