We study the influence of the system size on various static and dynamic properties of a supercooled binary Lennard-Jones liquid via computer simulations. In this way, we demonstrate that the treatment of systems as small as N = 65 particles yields results relevant for the understanding of bulk properties. In particular, we find that a system of N = 130 particles behaves basically as two non-interacting systems of half the size
We have studied the limits of stability in the first order liquid-solid phase transition in a Lennar...
The p-relaxation dynamics in a simple monatomic Lennard-Jones system is re-visited for both quenchin...
The spatial block analysis (SBA) method has been introduced to efficiently extrapolate thermodynamic...
We study the influence of the system size on various static and dynamic properties of a supercooled ...
After brief review of our recent simulation studies on kinetic heterogeneity in supercooled liquids,...
International audienceWe use large scale molecular dynamics simulations to investigate the relation ...
We use large scale molecular dynamics simulations to investigate the relation between cooperativity ...
Results for transport properties, in conjunction with phase behavior and thermodynamics, are present...
The gas-liquid phase coexistence in a two-dimensional Lennard-Jones system is investigated using Max...
19 pages, 10 figuresWe present a comprehensive theoretical study of finite size effects in the relax...
International audienceWe present a detailed study on the finite size scaling behaviour of thermodyna...
Dynamical properties of a supercooled Lennard-Jones binary mixture in a disordered array of soft sph...
A binary Lennard–Jones liquid has been investigated by molecular dynamics at equilibrium supercooled...
We present the results of a Molecular Dynamics computer simulation of a binary Lennard-Jones liquid ...
5We present a comprehensive theoretical study of finite-size effects in the relaxation dynamics of g...
We have studied the limits of stability in the first order liquid-solid phase transition in a Lennar...
The p-relaxation dynamics in a simple monatomic Lennard-Jones system is re-visited for both quenchin...
The spatial block analysis (SBA) method has been introduced to efficiently extrapolate thermodynamic...
We study the influence of the system size on various static and dynamic properties of a supercooled ...
After brief review of our recent simulation studies on kinetic heterogeneity in supercooled liquids,...
International audienceWe use large scale molecular dynamics simulations to investigate the relation ...
We use large scale molecular dynamics simulations to investigate the relation between cooperativity ...
Results for transport properties, in conjunction with phase behavior and thermodynamics, are present...
The gas-liquid phase coexistence in a two-dimensional Lennard-Jones system is investigated using Max...
19 pages, 10 figuresWe present a comprehensive theoretical study of finite size effects in the relax...
International audienceWe present a detailed study on the finite size scaling behaviour of thermodyna...
Dynamical properties of a supercooled Lennard-Jones binary mixture in a disordered array of soft sph...
A binary Lennard–Jones liquid has been investigated by molecular dynamics at equilibrium supercooled...
We present the results of a Molecular Dynamics computer simulation of a binary Lennard-Jones liquid ...
5We present a comprehensive theoretical study of finite-size effects in the relaxation dynamics of g...
We have studied the limits of stability in the first order liquid-solid phase transition in a Lennar...
The p-relaxation dynamics in a simple monatomic Lennard-Jones system is re-visited for both quenchin...
The spatial block analysis (SBA) method has been introduced to efficiently extrapolate thermodynamic...
DOI
Add to ORKG