Dislocation Injection, Reconstruction, and Atomic Transport on {001} Au Terraces

Henny W. Zandbergen; Chun-Wei Pao; David J. Srolovitz

doi:10.1103/PhysRevLett.98.036103

Dislocation Injection, Reconstruction, and Atomic Transport on {001} Au Terraces

Henny W. Zandbergen, Chun-Wei Pao, David J. Srolovitz

Research output: Journal Publications and Reviews › RGC 21 - Publication in refereed journal › peer-review

18 Citations (Scopus)

Abstract

High-resolution electron microscopy investigations of Au films show that adatoms on (100) surfaces insert into the underlying terrace to form surface dislocations. This injection readily occurs when the number of adatoms on a terrace is ∼20 atoms or less. The surface dislocation glides along the terrace, but is repelled from the edges. The dislocation escapes by squeezing out in the dislocation line direction (not gliding out the terrace edge). Atomistic simulations confirm the dislocation stability, easy glide along the terrace and trapping at the terrace edge. These results have profound implications for film growth.

Original language	English
Article number	036103
Journal	Physical Review Letters
Volume	98
Issue number	3
Online published	18 Jan 2007
DOIs	https://doi.org/10.1103/PhysRevLett.98.036103
Publication status	Published - 19 Jan 2007
Externally published	Yes

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abstract = "High-resolution electron microscopy investigations of Au films show that adatoms on (100) surfaces insert into the underlying terrace to form surface dislocations. This injection readily occurs when the number of adatoms on a terrace is ∼20 atoms or less. The surface dislocation glides along the terrace, but is repelled from the edges. The dislocation escapes by squeezing out in the dislocation line direction (not gliding out the terrace edge). Atomistic simulations confirm the dislocation stability, easy glide along the terrace and trapping at the terrace edge. These results have profound implications for film growth.",

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AU - Zandbergen, Henny W.

AU - Pao, Chun-Wei

AU - Srolovitz, David J.

PY - 2007/1/19

Y1 - 2007/1/19

N2 - High-resolution electron microscopy investigations of Au films show that adatoms on (100) surfaces insert into the underlying terrace to form surface dislocations. This injection readily occurs when the number of adatoms on a terrace is ∼20 atoms or less. The surface dislocation glides along the terrace, but is repelled from the edges. The dislocation escapes by squeezing out in the dislocation line direction (not gliding out the terrace edge). Atomistic simulations confirm the dislocation stability, easy glide along the terrace and trapping at the terrace edge. These results have profound implications for film growth.

AB - High-resolution electron microscopy investigations of Au films show that adatoms on (100) surfaces insert into the underlying terrace to form surface dislocations. This injection readily occurs when the number of adatoms on a terrace is ∼20 atoms or less. The surface dislocation glides along the terrace, but is repelled from the edges. The dislocation escapes by squeezing out in the dislocation line direction (not gliding out the terrace edge). Atomistic simulations confirm the dislocation stability, easy glide along the terrace and trapping at the terrace edge. These results have profound implications for film growth.

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JO - Physical Review Letters

JF - Physical Review Letters

IS - 3

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ER -

Dislocation Injection, Reconstruction, and Atomic Transport on {001} Au Terraces

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