Surface crystallization in a liquid AuSi alloy

Oleg G. Shpyrko; Reinhard Streitel; Venkatachalapathy S.K. Balagurusamy; Alexei Y. Grigoriev; Moshe Deutsch; Benjamin M. Ocko; Mati Meron; Binhua Lin; Peter S. Pershan

doi:10.1126/science.1128314

Surface crystallization in a liquid AuSi alloy

Oleg G. Shpyrko, Reinhard Streitel, Venkatachalapathy S.K. Balagurusamy, Alexei Y. Grigoriev, Moshe Deutsch, Benjamin M. Ocko, Mati Meron, Binhua Lin, Peter S. Pershan

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

185 Scopus citations

Abstract

X-ray measurements reveal a crystalline monolayer at the surface of the eutectic liquid Au₈₂Si₁₈, at temperatures above the alloy's melting point. Surface-induced atomic layering, the hallmark of liquid metals, is also found below the crystalline monolayer. The layering depth, however, is threefold greater than that of all liquid metals studied to date. The crystallinity of the surface monolayer is notable, considering that AuSi does not form stable bulk crystalline phases at any concentration and temperature and that no crystalline surface phase has been detected thus far in any pure liquid metal or nondilute alloy. These results are discussed in relation to recently suggested models of amorphous alloys.

Original language	English
Pages (from-to)	77-80
Number of pages	4
Journal	Science
Volume	313
Issue number	5783
DOIs	https://doi.org/10.1126/science.1128314
State	Published - 7 Jul 2006
Externally published	Yes

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title = "Surface crystallization in a liquid AuSi alloy",

abstract = "X-ray measurements reveal a crystalline monolayer at the surface of the eutectic liquid Au82Si18, at temperatures above the alloy's melting point. Surface-induced atomic layering, the hallmark of liquid metals, is also found below the crystalline monolayer. The layering depth, however, is threefold greater than that of all liquid metals studied to date. The crystallinity of the surface monolayer is notable, considering that AuSi does not form stable bulk crystalline phases at any concentration and temperature and that no crystalline surface phase has been detected thus far in any pure liquid metal or nondilute alloy. These results are discussed in relation to recently suggested models of amorphous alloys.",

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AU - Shpyrko, Oleg G.

AU - Streitel, Reinhard

AU - Balagurusamy, Venkatachalapathy S.K.

AU - Grigoriev, Alexei Y.

AU - Deutsch, Moshe

AU - Ocko, Benjamin M.

AU - Meron, Mati

AU - Lin, Binhua

AU - Pershan, Peter S.

PY - 2006/7/7

Y1 - 2006/7/7

N2 - X-ray measurements reveal a crystalline monolayer at the surface of the eutectic liquid Au82Si18, at temperatures above the alloy's melting point. Surface-induced atomic layering, the hallmark of liquid metals, is also found below the crystalline monolayer. The layering depth, however, is threefold greater than that of all liquid metals studied to date. The crystallinity of the surface monolayer is notable, considering that AuSi does not form stable bulk crystalline phases at any concentration and temperature and that no crystalline surface phase has been detected thus far in any pure liquid metal or nondilute alloy. These results are discussed in relation to recently suggested models of amorphous alloys.

AB - X-ray measurements reveal a crystalline monolayer at the surface of the eutectic liquid Au82Si18, at temperatures above the alloy's melting point. Surface-induced atomic layering, the hallmark of liquid metals, is also found below the crystalline monolayer. The layering depth, however, is threefold greater than that of all liquid metals studied to date. The crystallinity of the surface monolayer is notable, considering that AuSi does not form stable bulk crystalline phases at any concentration and temperature and that no crystalline surface phase has been detected thus far in any pure liquid metal or nondilute alloy. These results are discussed in relation to recently suggested models of amorphous alloys.

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Surface crystallization in a liquid AuSi alloy

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