Add to ORKGWe present a bond-order potential (BOP) for the bcc transition metal tungsten. The bond-order potentials are a real-space semiempirical scheme for the description of interatomic interactions based on the tight-binding approximation. In the hierarchy of atomic-scale-modeling methods the BOPs thus provide a direct bridge between electronic-structure and atomistic techniques. Two variants of the BOP were constructed and extensively tested against accurate first-principles methods in order to assess the potentials\u27 reliability and applicability. A comparison of the BOP with a central-force potential is used to demonstrate that a correct description of directional mixed covalent and metallic bonds is crucial for a successful and fully transfe...
The bond-order potential (BOP) for transition metals is a real-space semiempirical description of in...
We systematically investigate the interaction between a monovacancy and various lattice dislocations...
Plastic deformation of polycrystalline materials is largely controlled by the interaction between la...
We present a bond-order potential (BOP) for the bcc transition metal tungsten. The bond-order potent...
We present a bond-order potential (BOP) for the bcc transition metal tungsten. The bond-order potent...
We present a bond-order potential (BOP) for the bcc transition metal tungsten. The bond-order potent...
We present a bond-order potential (BOP) for the bcc transition metal tungsten. The bond-order potent...
A new development of numerical bond-order potentials (BOPs) for the non-magnetic transition metals V...
One of the most challenging areas in materials science is modeling of the mechanical behavior of mat...
One of the most challenging areas in materials science is modeling of the mechanical behavior of mat...
Mechanical properties of polycrystalline materials are greatly influenced by the motion of dislocati...
Bond-order potentials (BOPs), based on the tight binding (TB) approach for the evaluation of bonding...
Bond-order potentials (BOPs), based on the tight binding (TB) approach for the evaluation of bonding...
In this paper we present bond-order potentials (BOPs) based on the tight-binding method. The potenti...
Physical and mechanical properties of crystalline materials are commonly controlled by the atomic st...
The bond-order potential (BOP) for transition metals is a real-space semiempirical description of in...
We systematically investigate the interaction between a monovacancy and various lattice dislocations...
Plastic deformation of polycrystalline materials is largely controlled by the interaction between la...
We present a bond-order potential (BOP) for the bcc transition metal tungsten. The bond-order potent...
We present a bond-order potential (BOP) for the bcc transition metal tungsten. The bond-order potent...
We present a bond-order potential (BOP) for the bcc transition metal tungsten. The bond-order potent...
We present a bond-order potential (BOP) for the bcc transition metal tungsten. The bond-order potent...
A new development of numerical bond-order potentials (BOPs) for the non-magnetic transition metals V...
One of the most challenging areas in materials science is modeling of the mechanical behavior of mat...
One of the most challenging areas in materials science is modeling of the mechanical behavior of mat...
Mechanical properties of polycrystalline materials are greatly influenced by the motion of dislocati...
Bond-order potentials (BOPs), based on the tight binding (TB) approach for the evaluation of bonding...
Bond-order potentials (BOPs), based on the tight binding (TB) approach for the evaluation of bonding...
In this paper we present bond-order potentials (BOPs) based on the tight-binding method. The potenti...
Physical and mechanical properties of crystalline materials are commonly controlled by the atomic st...
The bond-order potential (BOP) for transition metals is a real-space semiempirical description of in...
We systematically investigate the interaction between a monovacancy and various lattice dislocations...
Plastic deformation of polycrystalline materials is largely controlled by the interaction between la...