We have studied the formation and migration of point defects within the magnesium sub-lattice in forsterite using a combination of empirical and quantum mechanical modelling methodologies. Empirical models based on a parameterised force field coupled to a high throughput grid computing infrastructure allow rapid evaluation of a very large number of possible defect configurations. An embedded cluster approach reveals more accurate estimates of defect energetics for the most important defect configurations. Considering all defects in their minimum energy, equilibrium positions, we find that the lowest energy intrinsic defect is the magnesium Frenkel type, where a magnesium atom moves from the M1 site to form a split interstitial defect. This ...
© 2014 Elsevier B.V. All rights reserved. To investigate the kinetics of the formation of solute clu...
Oxygen diffusion plays an important role in grain growth and densification during the sintering of a...
Dislocations are known to influence the formation and migration of point defects in crystalline mate...
We have studied the formation and migration of point defects within the magnesium sub-lattice infors...
International audienceComputer simulation techniques were used to investigate the effect of pressure...
Convection in the Earths solid mantle, accompanied by long time-scale viscous creep, is the mechanis...
Mg diffusion is important for explaining many properties of forsterite but its mechanism is unknown....
In order to contribute to the understanding of diffusion processes in enstatite (Mg2Si2O6), we have ...
Predictive control of alloy processing requires an accurate knowledge of the thermodynamic and the k...
The mechanisms by which Mg(2+) and Al(3+) ions are transported through the MgAl(2)O(4) spinel lattic...
International audienceWhilst the diffusivity of hydrogen (H) in forsterite (Mg2SiO4) has been extens...
Phengite is the name of a series designating the \u201cpotassic dioctahedral micas between, or close...
Point and small cluster defects in magnesium aluminate spinel have been studied from a first princip...
This thesis presents a computational study of the interaction between solute atoms and defects in th...
Oxygen diffusion plays an important role in grain growth and densification during the sintering of a...
© 2014 Elsevier B.V. All rights reserved. To investigate the kinetics of the formation of solute clu...
Oxygen diffusion plays an important role in grain growth and densification during the sintering of a...
Dislocations are known to influence the formation and migration of point defects in crystalline mate...
We have studied the formation and migration of point defects within the magnesium sub-lattice infors...
International audienceComputer simulation techniques were used to investigate the effect of pressure...
Convection in the Earths solid mantle, accompanied by long time-scale viscous creep, is the mechanis...
Mg diffusion is important for explaining many properties of forsterite but its mechanism is unknown....
In order to contribute to the understanding of diffusion processes in enstatite (Mg2Si2O6), we have ...
Predictive control of alloy processing requires an accurate knowledge of the thermodynamic and the k...
The mechanisms by which Mg(2+) and Al(3+) ions are transported through the MgAl(2)O(4) spinel lattic...
International audienceWhilst the diffusivity of hydrogen (H) in forsterite (Mg2SiO4) has been extens...
Phengite is the name of a series designating the \u201cpotassic dioctahedral micas between, or close...
Point and small cluster defects in magnesium aluminate spinel have been studied from a first princip...
This thesis presents a computational study of the interaction between solute atoms and defects in th...
Oxygen diffusion plays an important role in grain growth and densification during the sintering of a...
© 2014 Elsevier B.V. All rights reserved. To investigate the kinetics of the formation of solute clu...
Oxygen diffusion plays an important role in grain growth and densification during the sintering of a...
Dislocations are known to influence the formation and migration of point defects in crystalline mate...