M. Greiff scite author profile

Abstract. Modern numerical methods for field calculations are having problems dealing with singularities correctly. This paper provides two alternative methods that are able to handle electric fields including singularities in tip-like configurations. These configurations occur in atomic force microscopes. Another focus will be the suitability of coupling the presented methods with usual numerical methods.

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Hybrid Numerical Simulation of Electrostatic Force Microscopes Considering Charge Distribution

Bala¹,

Greiff²,

Mathis³

2007

PIERS Online

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A Staggered ALE Approach for Coupled Electromechanical Systems

Greiff

Bala

Mathis

2006

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Numerical modelling of electrostatic force microscopes considering charge and dielectric constant

Bala

Greiff

Preisner

et al. 2009

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PurposeThe purpose of this paper is to present a hybrid numerical simulation approach for the calculation of potential and electric field distribution considering charge and dielectric constant.Design/methodology/approachEach numerical method has its own advantages and disadvantages. The idea is to overcome the disadvantages of the corresponding numerical method by coupling with other numerical methods. An augmented finite element method (FEM), linear FEM and boundary element method are used with an efficient coupling.FindingsThe simulation model of microstructured devices is not so simple. During the simulation various types of problems will occur. It is found that by using several numerical methods these problems can be overcome and the calculation can be performed efficiently.Research limitations/implicationsThe present approach can be applied in 2D cases. But, in 3D cases the calculation of augmented FEM in a spherical coordinate becomes quite elaborate.Practical implicationsThe proposed hybrid numerical simulation approach can be applied for the simulation of the electrostatic force microscope (EFM) which is a very high‐resolution measuring tool in nanotechnology. This approach can be applied also to other micro‐electro‐mechanical systems.Originality/valueSince the scanning process of the EFM is dynamic, it requires the updating of the FEM mesh in each calculation time step. In the present paper, the mesh updating is achieved by an arbitrary Lagrangian‐Eulerian (ALE) method. The proposed numerical approach can be applied for the simulation of the EFM including this remeshing algorithm ALE.

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M. Greiff

Hybrid Numerical Simulation of Micro Electro Mechanical Systems

Modellierung des elektrischen Feldes für Anordnungen mit Singularitäten

Hybrid Numerical Simulation of Electrostatic Force Microscopes Considering Charge Distribution

A Staggered ALE Approach for Coupled Electromechanical Systems

Numerical modelling of electrostatic force microscopes considering charge and dielectric constant

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