Structure of molten CaSiO3: Neutron diffraction isotope substitution with aerodynamic levitation and molecular dynamics study

L. B. Skinner; C. J. Benmore; J. K.R. Weber; S. Tumber; L. Lazareva; J. Neuefeind; L. Santodonato; J. Du; J. B. Parise

doi:10.1021/jp3066019

Structure of molten CaSiO₃: Neutron diffraction isotope substitution with aerodynamic levitation and molecular dynamics study

L. B. Skinner, C. J. Benmore, J. K.R. Weber, S. Tumber, L. Lazareva, J. Neuefeind, L. Santodonato, J. Du, J. B. Parise

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Abstract

We have performed neutron diffraction isotopic substitution experiments on aerodynamically levitated droplets of CaSiO₃, to directly extract intermediate and local structural information on the Ca environment. The results show a substantial broadening of the first Ca-O peak in the pair distribution function of the melt compared to the glass, which comprises primarily of 6- and 7-fold coordinated Ca-polyhedra. The broadening can be explained by a redistribution of Ca-O bond lengths, especially toward longer distances in the liquid. The first order neutron difference function provides a test of recent molecular dynamics simulations and supports the MD model which contains short chains or channels of edge shared Ca-octahedra in the liquid state. It is suggested that the polymerization of Ca-polyhedra is responsible for the fragile viscosity behavior of the melt and the glass forming ability in CaSiO ₃.

Original language	English
Pages (from-to)	13439-13447
Number of pages	9
Journal	Journal of Physical Chemistry B
Volume	116
Issue number	45
DOIs	https://doi.org/10.1021/jp3066019
State	Published - Nov 15 2012
Externally published	Yes

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title = "Structure of molten CaSiO3: Neutron diffraction isotope substitution with aerodynamic levitation and molecular dynamics study",

abstract = "We have performed neutron diffraction isotopic substitution experiments on aerodynamically levitated droplets of CaSiO3, to directly extract intermediate and local structural information on the Ca environment. The results show a substantial broadening of the first Ca-O peak in the pair distribution function of the melt compared to the glass, which comprises primarily of 6- and 7-fold coordinated Ca-polyhedra. The broadening can be explained by a redistribution of Ca-O bond lengths, especially toward longer distances in the liquid. The first order neutron difference function provides a test of recent molecular dynamics simulations and supports the MD model which contains short chains or channels of edge shared Ca-octahedra in the liquid state. It is suggested that the polymerization of Ca-polyhedra is responsible for the fragile viscosity behavior of the melt and the glass forming ability in CaSiO 3.",

author = "Skinner, \{L. B.\} and Benmore, \{C. J.\} and Weber, \{J. K.R.\} and S. Tumber and L. Lazareva and J. Neuefeind and L. Santodonato and J. Du and Parise, \{J. B.\}",

year = "2012",

month = nov,

day = "15",

doi = "10.1021/jp3066019",

language = "English",

volume = "116",

pages = "13439--13447",

journal = "Journal of Physical Chemistry B",

issn = "1520-6106",

publisher = "American Chemical Society",

number = "45",

}

TY - JOUR

T1 - Structure of molten CaSiO3

T2 - Neutron diffraction isotope substitution with aerodynamic levitation and molecular dynamics study

AU - Skinner, L. B.

AU - Benmore, C. J.

AU - Weber, J. K.R.

AU - Tumber, S.

AU - Lazareva, L.

AU - Neuefeind, J.

AU - Santodonato, L.

AU - Du, J.

AU - Parise, J. B.

PY - 2012/11/15

Y1 - 2012/11/15

N2 - We have performed neutron diffraction isotopic substitution experiments on aerodynamically levitated droplets of CaSiO3, to directly extract intermediate and local structural information on the Ca environment. The results show a substantial broadening of the first Ca-O peak in the pair distribution function of the melt compared to the glass, which comprises primarily of 6- and 7-fold coordinated Ca-polyhedra. The broadening can be explained by a redistribution of Ca-O bond lengths, especially toward longer distances in the liquid. The first order neutron difference function provides a test of recent molecular dynamics simulations and supports the MD model which contains short chains or channels of edge shared Ca-octahedra in the liquid state. It is suggested that the polymerization of Ca-polyhedra is responsible for the fragile viscosity behavior of the melt and the glass forming ability in CaSiO 3.

AB - We have performed neutron diffraction isotopic substitution experiments on aerodynamically levitated droplets of CaSiO3, to directly extract intermediate and local structural information on the Ca environment. The results show a substantial broadening of the first Ca-O peak in the pair distribution function of the melt compared to the glass, which comprises primarily of 6- and 7-fold coordinated Ca-polyhedra. The broadening can be explained by a redistribution of Ca-O bond lengths, especially toward longer distances in the liquid. The first order neutron difference function provides a test of recent molecular dynamics simulations and supports the MD model which contains short chains or channels of edge shared Ca-octahedra in the liquid state. It is suggested that the polymerization of Ca-polyhedra is responsible for the fragile viscosity behavior of the melt and the glass forming ability in CaSiO 3.

UR - https://www.scopus.com/pages/publications/84869198149

U2 - 10.1021/jp3066019

DO - 10.1021/jp3066019

M3 - Article

AN - SCOPUS:84869198149

SN - 1520-6106

VL - 116

SP - 13439

EP - 13447

JO - Journal of Physical Chemistry B

JF - Journal of Physical Chemistry B

IS - 45

ER -

Structure of molten CaSiO₃: Neutron diffraction isotope substitution with aerodynamic levitation and molecular dynamics study

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