Add to ORKGIn this paper we construct energy based numerical methods free of ghost forces in three dimen- sional lattices arising in crystalline materials. The analysis hinges on establishing a connection of the coupled system to conforming finite elements. Key ingredients are: (i) a new representation of discrete derivatives related to long range interactions of atoms as volume integrals of gradients of piecewise linear functions over bond volumes, and (ii) the construction of an underlying globally continuous function representing the coupled modeling method
We combine the ideas of atomistic/continuum energy blending and ghost force correction to obtain an ...
The force-based quasicontinuum (QCF) approximation is the principle that lies behind the most common...
We consider an atomistic model defined through an interaction field satisfying a variational princip...
In this paper we construct energy based numerical methods free of ghost forces in three dimen- siona...
ABSTRACT. In this paper we construct energy based numerical methods free of ghost forces in three di...
In this paper, we construct energy-based numerical methods free of ghost forces in three-dimensional...
In the field of multiscale modelling of materials, a class of significant problems involves the atom...
A common observation from an atomistic to continuum coupling method is that the error is often gener...
This paper is devoted to a new finite element consistency analysis of Cauchy–Born approximations to ...
This paper addresses the problem of consistent energy-based coupling of atomistic and con-tinuum mod...
Very few works exist to date on development of a consistent energy-based coupling of atomistic and c...
Abstract. We present a comprehensive error analysis of two prototypical atomistic-to-continuum coupl...
Computational schemes for coarse-graining atomistic models of solids, by concurrent coupling of atom...
Abstract. We present a comprehensive error analysis of two prototypical atomistic-to-continuum coupl...
The force-based quasicontinuum (QCF) approximation is a non-conservative atomistic/continuum hybrid ...
We combine the ideas of atomistic/continuum energy blending and ghost force correction to obtain an ...
The force-based quasicontinuum (QCF) approximation is the principle that lies behind the most common...
We consider an atomistic model defined through an interaction field satisfying a variational princip...
In this paper we construct energy based numerical methods free of ghost forces in three dimen- siona...
ABSTRACT. In this paper we construct energy based numerical methods free of ghost forces in three di...
In this paper, we construct energy-based numerical methods free of ghost forces in three-dimensional...
In the field of multiscale modelling of materials, a class of significant problems involves the atom...
A common observation from an atomistic to continuum coupling method is that the error is often gener...
This paper is devoted to a new finite element consistency analysis of Cauchy–Born approximations to ...
This paper addresses the problem of consistent energy-based coupling of atomistic and con-tinuum mod...
Very few works exist to date on development of a consistent energy-based coupling of atomistic and c...
Abstract. We present a comprehensive error analysis of two prototypical atomistic-to-continuum coupl...
Computational schemes for coarse-graining atomistic models of solids, by concurrent coupling of atom...
Abstract. We present a comprehensive error analysis of two prototypical atomistic-to-continuum coupl...
The force-based quasicontinuum (QCF) approximation is a non-conservative atomistic/continuum hybrid ...
We combine the ideas of atomistic/continuum energy blending and ghost force correction to obtain an ...
The force-based quasicontinuum (QCF) approximation is the principle that lies behind the most common...
We consider an atomistic model defined through an interaction field satisfying a variational princip...