Add to ORKGCovering the solid lattice with a finite-element mesh produces a coarse-grained system of mesh nodes as pseudoatoms interacting through an effective potential energy that depends implicitly on the thermodynamic state. Use of the pseudoatomic Hamiltonian in a Monte Carlo simulation of the two-dimensional Lennard-Jones crystal yields equilibrium thermomechanical properties (e.g., isotropic stress) in excellent agreement with “exact” fully atomistic results
The quasicontinuum (QC) method coarse-grains crystalline atomic ensembles in order to bridge the sca...
A treatment of multiscale quasistatic processes that combines an atomistic description of microscopi...
The quasicontinuum (QC) method has become a popular technique to bridge the gap between atomistic an...
Covering the solid lattice with a finite-element mesh produces a coarse-grained system of mesh nodes...
Using a combination of statistical mechanics and finite-element interpolation, we develop a coarse-g...
A new treatment of quasistatic (reversible) multiscale processes in heterogeneous materials at nonze...
The quasicontinuum (QC) method was originally introduced to bridge across length scales by coarse-gr...
The aim of this paper is the development of equilibrium and non-equilibrium extensions of the quasic...
Computational modeling of metallic materials across various length and time scales has been on the r...
The problem of prediction of finite temperature properties of materials poses great computational ch...
Using a combination of statistical mechanics and finite-element interpolation, we develop a coarse-g...
The quasicontinuum (QC) method was introduced to coarse-grain crystalline atomic ensembles in order ...
In this paper we extend the quasi-continuum method to study equilibrium properties of defects at fin...
金沢大学大学院自然科学研究科機能開発システム金沢大学工学部The quasicontinuum method is a way of reducing the number of degrees of...
In this dissertation, a high-fidelity atomistic-to-continuum link for highly non-equilibrium process...
The quasicontinuum (QC) method coarse-grains crystalline atomic ensembles in order to bridge the sca...
A treatment of multiscale quasistatic processes that combines an atomistic description of microscopi...
The quasicontinuum (QC) method has become a popular technique to bridge the gap between atomistic an...
Covering the solid lattice with a finite-element mesh produces a coarse-grained system of mesh nodes...
Using a combination of statistical mechanics and finite-element interpolation, we develop a coarse-g...
A new treatment of quasistatic (reversible) multiscale processes in heterogeneous materials at nonze...
The quasicontinuum (QC) method was originally introduced to bridge across length scales by coarse-gr...
The aim of this paper is the development of equilibrium and non-equilibrium extensions of the quasic...
Computational modeling of metallic materials across various length and time scales has been on the r...
The problem of prediction of finite temperature properties of materials poses great computational ch...
Using a combination of statistical mechanics and finite-element interpolation, we develop a coarse-g...
The quasicontinuum (QC) method was introduced to coarse-grain crystalline atomic ensembles in order ...
In this paper we extend the quasi-continuum method to study equilibrium properties of defects at fin...
金沢大学大学院自然科学研究科機能開発システム金沢大学工学部The quasicontinuum method is a way of reducing the number of degrees of...
In this dissertation, a high-fidelity atomistic-to-continuum link for highly non-equilibrium process...
The quasicontinuum (QC) method coarse-grains crystalline atomic ensembles in order to bridge the sca...
A treatment of multiscale quasistatic processes that combines an atomistic description of microscopi...
The quasicontinuum (QC) method has become a popular technique to bridge the gap between atomistic an...