Periodic lattice distortion accompanying the charge-density-wave phase of Sn/Ge(111)

A. Baddorf; V. Jahns; Jiandi Zhang; J. Carpinelli; E. Plummer

doi:10.1103/PhysRevB.57.4579

Periodic lattice distortion accompanying the charge-density-wave phase of Sn/Ge(111)

A. Baddorf, V. Jahns, Jiandi Zhang, J. Carpinelli, E. Plummer

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23 Scopus citations

Abstract

Surface x-ray diffraction has been used to determine the periodic lattice distortion (PLD) accompanying the charge-density-wave (CDW) formation in the α phase of Sn on Ge(111). Scanning tunneling microscopy observations of the CDW show a (Formula presented) vertical charge corrugation in the image of the Sn atoms, but the measured vertical ripple in the PLD is almost zero, (Formula presented) The PLD occurs almost exclusively in the outermost Ge layer, where a 0.22-Å lateral motion of the three Ge atoms is associated with the Sn atom with largest amplitude in the CDW. Surprisingly, Sn ion cores move in the opposite direction from valence electrons. These results will be discussed in light of the recent models put forward to explain the CDW formation.

Original language	English
Pages (from-to)	4579-4583
Number of pages	5
Journal	Physical Review B - Condensed Matter and Materials Physics
Volume	57
Issue number	8
DOIs	https://doi.org/10.1103/PhysRevB.57.4579
State	Published - 1998
Externally published	Yes

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title = "Periodic lattice distortion accompanying the charge-density-wave phase of Sn/Ge(111)",

abstract = "Surface x-ray diffraction has been used to determine the periodic lattice distortion (PLD) accompanying the charge-density-wave (CDW) formation in the α phase of Sn on Ge(111). Scanning tunneling microscopy observations of the CDW show a (Formula presented) vertical charge corrugation in the image of the Sn atoms, but the measured vertical ripple in the PLD is almost zero, (Formula presented) The PLD occurs almost exclusively in the outermost Ge layer, where a 0.22-{\AA} lateral motion of the three Ge atoms is associated with the Sn atom with largest amplitude in the CDW. Surprisingly, Sn ion cores move in the opposite direction from valence electrons. These results will be discussed in light of the recent models put forward to explain the CDW formation.",

author = "A. Baddorf and V. Jahns and Jiandi Zhang and J. Carpinelli and E. Plummer",

year = "1998",

doi = "10.1103/PhysRevB.57.4579",

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T1 - Periodic lattice distortion accompanying the charge-density-wave phase of Sn/Ge(111)

AU - Baddorf, A.

AU - Jahns, V.

AU - Zhang, Jiandi

AU - Carpinelli, J.

AU - Plummer, E.

PY - 1998

Y1 - 1998

N2 - Surface x-ray diffraction has been used to determine the periodic lattice distortion (PLD) accompanying the charge-density-wave (CDW) formation in the α phase of Sn on Ge(111). Scanning tunneling microscopy observations of the CDW show a (Formula presented) vertical charge corrugation in the image of the Sn atoms, but the measured vertical ripple in the PLD is almost zero, (Formula presented) The PLD occurs almost exclusively in the outermost Ge layer, where a 0.22-Å lateral motion of the three Ge atoms is associated with the Sn atom with largest amplitude in the CDW. Surprisingly, Sn ion cores move in the opposite direction from valence electrons. These results will be discussed in light of the recent models put forward to explain the CDW formation.

AB - Surface x-ray diffraction has been used to determine the periodic lattice distortion (PLD) accompanying the charge-density-wave (CDW) formation in the α phase of Sn on Ge(111). Scanning tunneling microscopy observations of the CDW show a (Formula presented) vertical charge corrugation in the image of the Sn atoms, but the measured vertical ripple in the PLD is almost zero, (Formula presented) The PLD occurs almost exclusively in the outermost Ge layer, where a 0.22-Å lateral motion of the three Ge atoms is associated with the Sn atom with largest amplitude in the CDW. Surprisingly, Sn ion cores move in the opposite direction from valence electrons. These results will be discussed in light of the recent models put forward to explain the CDW formation.

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DO - 10.1103/PhysRevB.57.4579

M3 - Article

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SN - 1098-0121

VL - 57

SP - 4579

EP - 4583

JO - Physical Review B - Condensed Matter and Materials Physics

JF - Physical Review B - Condensed Matter and Materials Physics

IS - 8

ER -

Periodic lattice distortion accompanying the charge-density-wave phase of Sn/Ge(111)

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