Add to ORKGAbstract. We develop a boundary element method to calculate Van der Waals interactions for systems composed of domains of spatially constant dielectric response of a general boundary shape. We achieve this by rewriting the interaction energy expression presented in Phys. Rev. B, 62 (2000) 6997 exclusively in terms of surface integrals of surface operators. We validate this approach in the Lifshitz case and give numerical results for the interaction of two spheres as well as the van der Waals self-interaction of a uniaxial ellipsoid. Our method is simple to implement and is particularly suitable for a full, non-perturbative numerical evaluation of non-retarded van der Waals interactions between objects of a completely general shape. PACS. 77...
The van der Waals interaction force between a metallic tip and a non planar dielectric is derived fr...
International audienceThis article is the second in a series of two papers concerning the mathematic...
The van der Waals interaction energy of an atom with an infinitely thin sphere with finite conductiv...
We develop a boundary element method to calculate Van der Waals interactions for systems composed of...
The van der Waals potential between a neutral atom (no permanent dipole) and a metallic surface is p...
Density functional theory is a very important method for calculating ground-state properties for ato...
The van der Waals interaction free energy Aint between two spherical bodies of Stockmayer fluid acro...
In this paper we introduce an efficient method for the calculation of the noncontact van der Waals i...
In a previous paper we derived an expression for the retarded Van der Waals interaction energy at ze...
The van der Waals and the Casimir-Lifshitz forces are forces of attraction that exist between neutra...
International audienceWe derive a rigorous analytical formalism and propose a numerical method for t...
In this study, thermal Casimir-Polder potential is calculated for an atom in the presence of a diele...
This article is the second in a series of two papers concerning the mathematical study of a boundary...
van der Waals interaction is one component of the surface force interactions, which control bubble-p...
Van der Waals and electrostatic double layer interactions between two colloidal particles are evalua...
The van der Waals interaction force between a metallic tip and a non planar dielectric is derived fr...
International audienceThis article is the second in a series of two papers concerning the mathematic...
The van der Waals interaction energy of an atom with an infinitely thin sphere with finite conductiv...
We develop a boundary element method to calculate Van der Waals interactions for systems composed of...
The van der Waals potential between a neutral atom (no permanent dipole) and a metallic surface is p...
Density functional theory is a very important method for calculating ground-state properties for ato...
The van der Waals interaction free energy Aint between two spherical bodies of Stockmayer fluid acro...
In this paper we introduce an efficient method for the calculation of the noncontact van der Waals i...
In a previous paper we derived an expression for the retarded Van der Waals interaction energy at ze...
The van der Waals and the Casimir-Lifshitz forces are forces of attraction that exist between neutra...
International audienceWe derive a rigorous analytical formalism and propose a numerical method for t...
In this study, thermal Casimir-Polder potential is calculated for an atom in the presence of a diele...
This article is the second in a series of two papers concerning the mathematical study of a boundary...
van der Waals interaction is one component of the surface force interactions, which control bubble-p...
Van der Waals and electrostatic double layer interactions between two colloidal particles are evalua...
The van der Waals interaction force between a metallic tip and a non planar dielectric is derived fr...
International audienceThis article is the second in a series of two papers concerning the mathematic...
The van der Waals interaction energy of an atom with an infinitely thin sphere with finite conductiv...