In this study, we present the original method for reconstructing the potential of interparticle interaction from statistically averaged structural data, namely, the radial distribution function of particles in many-particle system. This method belongs to a family of machine learning methods and is implemented through the differential evolution algorithm. As demonstrated for the case of the Lennard-Jones liquid taken as an example, there is no one-to-one correspondence between structure and potential of interparticle interaction of a many-particle disordered system at a certain thermodynamic state. Namely, a whole family of the Mie potentials determined by two parameters $p_{ 1 }$ and $p_{ 2 }$ related to each other according to a certain ru...
textA common challenge in materials science is the "inverse design problem," wherein one seeks to us...
This work presents the development of a computational approach to evaluate the radial distribution f...
International audienceIn a recent paper, we determined the pair structure and free energy for a bina...
Learning pair interactions from experimental or simulation data is of great interest for molecular s...
We used molecular dynamics computer simulations to test an approximate scaling principle that conjec...
The dependence of the dynamic properties of liquid metals and Lennard-Jones fluids on the characteri...
In the field of molecular simulations, the long standing aim has been to study mechanisms that canno...
The theoretical and practical understanding of molecular systems is strongly dependent on computer s...
This research is involved with the construction of potential energy models for the interaction of cl...
We present a stochastic description of a model of N mutually interacting active particles in the pre...
AbstractMolecular dynamics and Monte Carlo techniques are employed for the study of binary Lennard-J...
Liquids are a condensed and non-crystallized phase of matter and their properties are typically gove...
Simulations of colloidal suspensions consisting of mesoscopic particles and smaller species such as ...
The microscopic properties of a two-dimensional model dense fluid of Lennard-Jones disks have been ...
In an effort to understand skyrmion behavior on a coarse-grained level, skyrmions are often describe...
textA common challenge in materials science is the "inverse design problem," wherein one seeks to us...
This work presents the development of a computational approach to evaluate the radial distribution f...
International audienceIn a recent paper, we determined the pair structure and free energy for a bina...
Learning pair interactions from experimental or simulation data is of great interest for molecular s...
We used molecular dynamics computer simulations to test an approximate scaling principle that conjec...
The dependence of the dynamic properties of liquid metals and Lennard-Jones fluids on the characteri...
In the field of molecular simulations, the long standing aim has been to study mechanisms that canno...
The theoretical and practical understanding of molecular systems is strongly dependent on computer s...
This research is involved with the construction of potential energy models for the interaction of cl...
We present a stochastic description of a model of N mutually interacting active particles in the pre...
AbstractMolecular dynamics and Monte Carlo techniques are employed for the study of binary Lennard-J...
Liquids are a condensed and non-crystallized phase of matter and their properties are typically gove...
Simulations of colloidal suspensions consisting of mesoscopic particles and smaller species such as ...
The microscopic properties of a two-dimensional model dense fluid of Lennard-Jones disks have been ...
In an effort to understand skyrmion behavior on a coarse-grained level, skyrmions are often describe...
textA common challenge in materials science is the "inverse design problem," wherein one seeks to us...
This work presents the development of a computational approach to evaluate the radial distribution f...
International audienceIn a recent paper, we determined the pair structure and free energy for a bina...