Add to ORKGInternational audienceMelting of monatomic glass with free surfaces has been studied by molecular dynamics simulations in models with Lennard-Jones-Gauss interatomic potential. Models have been heated up from a glassy state toward a normal liquid state. Atomic mechanism of melting has been analyzed via monitoring spatio-temporal arrangements of liquid-like atoms occurred during heating process. Liquid-like atoms are detected via the Lindemann criterion of melting. It is clear that the transition from glass into supercooled liquid of our "ordinary" glass with free surfaces exhibits a non-heterogeneous behavior, i.e., although liquid-like atoms initiate/grow mainly in the surface shell, significant amount of liquid-like atoms also initiates/g...
Although the majority of glasses in use in technology are complex mixtures of oxides or chalcogenide...
Melting and solidification processes axe simulated by molecular dynamics method to investigate the c...
In the work presented in this dissertation, extensive molecular dynamics (MD) simulations have been ...
International audienceFree surface effects on the thermodynamics and glass formation in simple monat...
Glass formation in simple monatomic nanoparticles has been studied by molecular dynamics simulation...
International audienceWe report large-scale molecular dynamics simulations of the glass formation fr...
The ability of some liquids to vitrify during supercooling is usually seen as a consequence of the r...
This work contributes to the understanding of thermodynamic aspects and microscopic mechanisms of th...
International audienceAll materials are vitrified by fast quenching even monoatomic substances. Seco...
Molecular dynamics simulations have been employed to explore the response of crystalline Ar systems ...
All materials are vitrified by fast quenching even monoatomic substances. Second melting temperature...
When a liquid is cooled below its melting temperature under conditions that prevent it from crystall...
Despite their technological relevance, a full microscopic understanding of glasses is still lacking....
This work investigates the connection between heterogeneous melting at equilibrium and homogeneous ...
Some liquids, if cooled rapidly enough to avoid crystallization, can be frozen into a nonergodic gla...
Although the majority of glasses in use in technology are complex mixtures of oxides or chalcogenide...
Melting and solidification processes axe simulated by molecular dynamics method to investigate the c...
In the work presented in this dissertation, extensive molecular dynamics (MD) simulations have been ...
International audienceFree surface effects on the thermodynamics and glass formation in simple monat...
Glass formation in simple monatomic nanoparticles has been studied by molecular dynamics simulation...
International audienceWe report large-scale molecular dynamics simulations of the glass formation fr...
The ability of some liquids to vitrify during supercooling is usually seen as a consequence of the r...
This work contributes to the understanding of thermodynamic aspects and microscopic mechanisms of th...
International audienceAll materials are vitrified by fast quenching even monoatomic substances. Seco...
Molecular dynamics simulations have been employed to explore the response of crystalline Ar systems ...
All materials are vitrified by fast quenching even monoatomic substances. Second melting temperature...
When a liquid is cooled below its melting temperature under conditions that prevent it from crystall...
Despite their technological relevance, a full microscopic understanding of glasses is still lacking....
This work investigates the connection between heterogeneous melting at equilibrium and homogeneous ...
Some liquids, if cooled rapidly enough to avoid crystallization, can be frozen into a nonergodic gla...
Although the majority of glasses in use in technology are complex mixtures of oxides or chalcogenide...
Melting and solidification processes axe simulated by molecular dynamics method to investigate the c...
In the work presented in this dissertation, extensive molecular dynamics (MD) simulations have been ...