Compressive film stress in a thin, tensile heteroepitaxial film

Chun-Wei Pao; David J. Srolovitz

doi:10.1063/1.2955833

Compressive film stress in a thin, tensile heteroepitaxial film

Chun-Wei Pao^*, David J. Srolovitz

^*Corresponding author for this work

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

2 Citations (Scopus)

Abstract

We performed atomistic scale simulations to simulate the heteroepitaxial growth of a film with a 0.62% tensile misfit strain and monitored the stress evolution. The calculated f tf is initially compressive but increases after the first monolayer is completed. We provide theoretical and simulation evidence that this effect is associated with surface stresses. These results demonstrate that wafer curvature measurements lead to unreliable predictions of film stresses when the film is very thin.

Original language	English
Article number	011903
Journal	Applied Physics Letters
Volume	93
Issue number	1
Online published	7 Jul 2008
DOIs	https://doi.org/10.1063/1.2955833
Publication status	Published - 7 Jul 2008
Externally published	Yes

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title = "Compressive film stress in a thin, tensile heteroepitaxial film",

abstract = "We performed atomistic scale simulations to simulate the heteroepitaxial growth of a film with a 0.62% tensile misfit strain and monitored the stress evolution. The calculated f tf is initially compressive but increases after the first monolayer is completed. We provide theoretical and simulation evidence that this effect is associated with surface stresses. These results demonstrate that wafer curvature measurements lead to unreliable predictions of film stresses when the film is very thin. ",

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N2 - We performed atomistic scale simulations to simulate the heteroepitaxial growth of a film with a 0.62% tensile misfit strain and monitored the stress evolution. The calculated f tf is initially compressive but increases after the first monolayer is completed. We provide theoretical and simulation evidence that this effect is associated with surface stresses. These results demonstrate that wafer curvature measurements lead to unreliable predictions of film stresses when the film is very thin.

AB - We performed atomistic scale simulations to simulate the heteroepitaxial growth of a film with a 0.62% tensile misfit strain and monitored the stress evolution. The calculated f tf is initially compressive but increases after the first monolayer is completed. We provide theoretical and simulation evidence that this effect is associated with surface stresses. These results demonstrate that wafer curvature measurements lead to unreliable predictions of film stresses when the film is very thin.

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DO - 10.1063/1.2955833

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Compressive film stress in a thin, tensile heteroepitaxial film

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