Dynamical Simulations of Superionic Conductors

Gillan, M. J.

doi:10.1142/9789814503228_0004

Cited by 6 publications

(3 citation statements)

References 40 publications

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“…Our results confirm the conclusions of previous work (e.g. Gillan 1989) that the anion distribution function is strongly concentrated on the regular anion sites all the way up to the melting point, in spite of the very high mobility of the anions at this temperature (see below). However, the distribution spreads out into a wide region 1028 of the unit cell, reflecting the fact that the mobile ions take a range of paths as they jump between the regular sites.…”

Section: Singleparticle Densitysupporting

confidence: 93%

“…The ions carry full ionic charges, and the short-range interaction between ionic shells is modelled by a Born-Mayer-Huggins potential (equation ( 2)). The rigid-ion model of CaF, with which we shall make comparisons is that developed by Dixon and Gillan (1980), and used in simulations by Gillan (1986Gillan ( , 1989, by Brass (1989), by Pontikis (1989, 1991) and by Lindan and Gillan (1991). We have made harmonic calculations to study how well the rigid-ion and shell-model potentials reproduce experimental results for the phonon dispersion relations (Elcombe and Pryor 1970).…”

Section: Potentials and Testsmentioning

confidence: 99%

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Shell-model molecular dynamics simulation of superionic conduction in CaF₂

Lindan

Gillan

1993

J. Phys.: Condens. Matter

114

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The authors have developed a new code for performing molecular dynamics simulations of ionic materials, in which electronic polarization is included via the shell model. Key features of the method are the use of the conjugate-gradients technique for relaxing the shells at each step, and a new device for ensuring energy conservation. The new code is used to study superionic conduction in CaF2, which has previously been studied by conventional rigid-ion molecular dynamics. For both static and dynamic quantities, the modifications caused by explicit inclusion of electronic polarizability are remarkably small.

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Section: Singleparticle Densitysupporting

confidence: 93%

Section: Potentials and Testsmentioning

confidence: 99%

Shell-model molecular dynamics simulation of superionic conduction in CaF₂

Lindan

Gillan

1993

J. Phys.: Condens. Matter

114

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“…It can be quickly appreciated that MD simulation is a very useful method for investigating superionic conductors (see, for example, [43]). The atom positions may be used to extract structural parameters (average positions and instantaneous correlations) and atom trajectories may be traced to investigate diffusion pathways and mechanisms.…”

Section: Molecular Dynamics Simulationmentioning

confidence: 99%

Disordering phenomena in superionic conductors

Keen¹

2002

J. Phys.: Condens. Matter

135

129

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Superionic conductors are materials which exhibit exceptionally high ionic conductivity whilst in the solid state. The manner in which certain structures accommodate superionic conduction has preoccupied many scientists throughout the latter part of the last century, beginning with the early debate about the disordered structure of the superionic α-phase of silver iodide. In this review, the key methods that have been used to deduce structural disorder in superionic conductors are described, and the important results summarized. The review focuses on simple archetypal systems, since these have dominated the literature, concentrating on more recent work and including emerging methodologies for deducing structural disorder. In most cases, the interpretation of diffuse scattering, as observed in scattering measurements, has played a crucial role in the understanding of these highly disordered systems and this is considered in some detail.

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