| Issue |
Europhys. Lett.
Volume 54, Number 6, June II 2001
|
|
|---|---|---|
| Page(s) | 760 - 766 | |
| Section | Condensed matter: structure, mechanical and thermal properties | |
| DOI | https://doi.org/10.1209/epl/i2001-00319-x | |
| Published online | 01 December 2003 | |
Microscopic analysis of the compressibility in the spinel phase of
Departamento de Química Física y Analítica,
Facultad de Química
Universidad de Oviedo - E-33006-Oviedo, Spain
Received:
8
November
2000
Accepted:
2
April
2001
Quantum-mechanical static simulations of the high-pressure spinel phase of
have been performed to determine the unit cell geometry
and the equation of state from 0 to 50 GPa. The application of the Bader
theory to the ab initio electron density leads to quantum consistent
atomic charges and volumes, the crystalline bonding graph, and the prediction
of a highly ionic bonding. The computed thermodynamic properties have been
interpreted in terms of the local behaviour of the 
and 
quantum subgroups and constitutive unit cell polyhedra. We show that:
i) the bulk compressibility can be estimated
from the average of the tetrahedral and octahedral compressibilities,
and ii) the response to pressure controls the macroscopic
behaviour. Our conclusions can be useful in the search of
very hard, -based materials.
PACS: 62.50.+p – High-pressure and shock-wave effects in solids and liquids / 64.30.+t – Equations of state of specific substances / 82.20.Wt – Computational modeling; simulation
© EDP Sciences, 2001
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