Precise analysis and meaningful visualization of dislocation structures in molecular dynamics simulations are important steps toward physical insights. This chapter provides an introduction to the dislocation extraction algorithm (DXA), which is a computational method for identifying and quantifying dislocations in atomistic crystal models. It builds a bridge between the atomistic world of crystal defects and the discrete line picture of classical dislocation theory
International audienceDislocations – linear defects within the crystal lattice of, e.g., metals – al...
The goal of computational material science is to improve existing materials and design new ones thro...
he mathematical modelling of defects in cristals (the dislocations) is crucial to understand the mic...
Precise analysis and meaningful visualization of dislocation structures in molecular dynamics simula...
We describe a novel method for extracting dislocation lines from atomistic simulation data in a full...
An important aspect of many molecular dynamics studies is the meaningful visualization of computed a...
We present a novel computational method that makes it possible to directly extract dislocation lines...
A simple, efficient, and fully automated computer algorithm is described that identifies dislocation...
Dislocations are of great importance in revealing the underlying mechanisms of deformed solid crysta...
We perform atomistic simulations of dislocation nucleation in defect free crystals in 2 and 3 dimens...
In atomistic simulations of crystal plasticity, the characterization and representation of the dislo...
A correlative reference model for computer molecular dynamics simulations is proposed. Based on this...
International audienceThis chapter reviews the different methodological aspects of the ab ini-tio mo...
This article discusses computational analysis methods typically used in atomistic modeling of cryst...
A computational method for multiscale modeling of plasticity is presented wherein each dislocation i...
International audienceDislocations – linear defects within the crystal lattice of, e.g., metals – al...
The goal of computational material science is to improve existing materials and design new ones thro...
he mathematical modelling of defects in cristals (the dislocations) is crucial to understand the mic...
Precise analysis and meaningful visualization of dislocation structures in molecular dynamics simula...
We describe a novel method for extracting dislocation lines from atomistic simulation data in a full...
An important aspect of many molecular dynamics studies is the meaningful visualization of computed a...
We present a novel computational method that makes it possible to directly extract dislocation lines...
A simple, efficient, and fully automated computer algorithm is described that identifies dislocation...
Dislocations are of great importance in revealing the underlying mechanisms of deformed solid crysta...
We perform atomistic simulations of dislocation nucleation in defect free crystals in 2 and 3 dimens...
In atomistic simulations of crystal plasticity, the characterization and representation of the dislo...
A correlative reference model for computer molecular dynamics simulations is proposed. Based on this...
International audienceThis chapter reviews the different methodological aspects of the ab ini-tio mo...
This article discusses computational analysis methods typically used in atomistic modeling of cryst...
A computational method for multiscale modeling of plasticity is presented wherein each dislocation i...
International audienceDislocations – linear defects within the crystal lattice of, e.g., metals – al...
The goal of computational material science is to improve existing materials and design new ones thro...
he mathematical modelling of defects in cristals (the dislocations) is crucial to understand the mic...
DOI
Add to ORKG