Formation of multilayer two-dimensional Pb Islands on Si(111)7×7 at low temperature: From nucleation to growth

W. B. Su; S. H. Chang; H. Y. Lin; Y. P. Chiu; T. Y. Fu; C. S. Chang; Tien T. Tsong

Formation of multilayer two-dimensional Pb Islands on Si(111)7×7 at low temperature: From nucleation to growth

W. B. Su^*, S. H. Chang, H. Y. Lin, Y. P. Chiu, T. Y. Fu, C. S. Chang, Tien T. Tsong

^*Corresponding author for this work

Department of Physics

Research output: Contribution to journal › Article › peer-review

11 Citations (Scopus)

Abstract

The morphology of Pb islands formed on Si(111)7×7 at low temperature has the characteristics of both three-dimensional (3D) and 2D structures as they are of multilayer thickness but have a flat top surface. We use scanning tunneling microscopy to observe the growth behavior from the incipient stage to the formation of islands. Our observations show that the growth is 3D (Stranski-Krastanov mode) right after the nucleation, but that there is a transition from 3D to 2D when the nucleus reaches a certain size. This transition is driven by the quantum size effect, and it changes the growth behavior of Pb islands to be similar to that of single-layer islands in homoepitaxy systems. This similarity allows us to apply the scaling theory to analyze the size distribution of Pb islands, and also to conclude the critical size to be three atoms at the nucleation stage.

Original language	English
Article number	033405
Pages (from-to)	334051-334054
Number of pages	4
Journal	Physical Review B - Condensed Matter and Materials Physics
Volume	68
Issue number	3
Publication status	Published - 2003 Jul

ASJC Scopus subject areas

Electronic, Optical and Magnetic Materials
Condensed Matter Physics

Cite this

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title = "Formation of multilayer two-dimensional Pb Islands on Si(111)7×7 at low temperature: From nucleation to growth",

abstract = "The morphology of Pb islands formed on Si(111)7×7 at low temperature has the characteristics of both three-dimensional (3D) and 2D structures as they are of multilayer thickness but have a flat top surface. We use scanning tunneling microscopy to observe the growth behavior from the incipient stage to the formation of islands. Our observations show that the growth is 3D (Stranski-Krastanov mode) right after the nucleation, but that there is a transition from 3D to 2D when the nucleus reaches a certain size. This transition is driven by the quantum size effect, and it changes the growth behavior of Pb islands to be similar to that of single-layer islands in homoepitaxy systems. This similarity allows us to apply the scaling theory to analyze the size distribution of Pb islands, and also to conclude the critical size to be three atoms at the nucleation stage.",

author = "Su, {W. B.} and Chang, {S. H.} and Lin, {H. Y.} and Chiu, {Y. P.} and Fu, {T. Y.} and Chang, {C. S.} and Tsong, {Tien T.}",

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T1 - Formation of multilayer two-dimensional Pb Islands on Si(111)7×7 at low temperature

T2 - From nucleation to growth

AU - Su, W. B.

AU - Chang, S. H.

AU - Lin, H. Y.

AU - Chiu, Y. P.

AU - Fu, T. Y.

AU - Chang, C. S.

AU - Tsong, Tien T.

PY - 2003/7

Y1 - 2003/7

N2 - The morphology of Pb islands formed on Si(111)7×7 at low temperature has the characteristics of both three-dimensional (3D) and 2D structures as they are of multilayer thickness but have a flat top surface. We use scanning tunneling microscopy to observe the growth behavior from the incipient stage to the formation of islands. Our observations show that the growth is 3D (Stranski-Krastanov mode) right after the nucleation, but that there is a transition from 3D to 2D when the nucleus reaches a certain size. This transition is driven by the quantum size effect, and it changes the growth behavior of Pb islands to be similar to that of single-layer islands in homoepitaxy systems. This similarity allows us to apply the scaling theory to analyze the size distribution of Pb islands, and also to conclude the critical size to be three atoms at the nucleation stage.

AB - The morphology of Pb islands formed on Si(111)7×7 at low temperature has the characteristics of both three-dimensional (3D) and 2D structures as they are of multilayer thickness but have a flat top surface. We use scanning tunneling microscopy to observe the growth behavior from the incipient stage to the formation of islands. Our observations show that the growth is 3D (Stranski-Krastanov mode) right after the nucleation, but that there is a transition from 3D to 2D when the nucleus reaches a certain size. This transition is driven by the quantum size effect, and it changes the growth behavior of Pb islands to be similar to that of single-layer islands in homoepitaxy systems. This similarity allows us to apply the scaling theory to analyze the size distribution of Pb islands, and also to conclude the critical size to be three atoms at the nucleation stage.

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Formation of multilayer two-dimensional Pb Islands on Si(111)7×7 at low temperature: From nucleation to growth

Abstract

ASJC Scopus subject areas

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