Identificador persistente para citar o vincular este elemento: http://hdl.handle.net/10553/133405
Título: High-pressure x-ray scattering and computer simulation studies of density-induced polyamorphism in silicon
Autores/as: Daisenberger, Dominik
Wilson, Mark
McMillan, Paul F.
Quesada Cabrera, Raúl 
Wilding, Martin C.
Machon, Denis
Clasificación UNESCO: 2307 Química física
Fecha de publicación: 2007
Publicación seriada: Physical Review B - Condensed Matter and Materials Physics 
Resumen: A low- to high-density pressure-driven phase transition in amorphous silicon is investigated by synchrotron x-ray diffraction in the diamond anvil cell. Complementary atomistic molecular dynamics computer simulations provide insight into the underlying structural transformations and allow us to interpret the structure factors obtained from experiment. During compression the form of the scattering function S (Q) changes abruptly at 13.5 GPa, indicating significant structural rearrangement in the amorphous solid. In particular, the first peak in S (Q) shifts to larger Q values. The changes are correlated with the occurrence of a low- to high-density (LDA-HDA) polyamorphic transition observed previously using Raman scattering and electrical conductivity measurements. The data are analyzed to provide real space (pair distribution function) information. The experimental data are compared with results from molecular dynamics (MD) simulations using a modified Stillinger-Weber many-body potential energy function in order to extract structural information on the densified amorphous material. We deduce that the polyamorphic transition involves an abrupt increase in the proportion of 5- and 6-coordinate Si atoms. The overall structure of the HDA polyamorph can be related to that of the LDA form by creation of highly-coordinated "defects" within the tetrahedrally-bonded LDA network. However classical and quantum MD simulations indicate that an even higher density amorphous state might exist, based on structures that resemble the densely-packed metallic polymorphs of crystalline Si. © 2007 The American Physical Society.
URI: http://hdl.handle.net/10553/133405
ISSN: 1098-0121
DOI: 10.1103/PhysRevB.75.224118
Fuente: Physical Review B - Condensed Matter and Materials Physics [ISSN 1098-0121], v. 75, n. 22
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