The generalized multipole technique

Automatic multipoles placement in the Generalized Multipole Technique (GMT) generates also multipoles that are not necessary for obtaining accurate solutions and may prevent numerical stability. It is therefore important to find out these multipoles and to eliminate them. Two procedures for identify

In recent years, the generalized multipole technique GMT and other fictitious source methods ha¨e been widely used to sol¨e electromagnetic scattering problems. Ne¨ertheless, these methods ha¨e been shown to be ¨ery sensiti¨e to the source locations, and often produce ill-conditioned matrix systems.

In this letter, a new method for reconstructing the bound of impenetrable two-dimensional objects is presented. From a set of measurements in the near-or far-field region, we calculate the coefficients of multipolar equi¨alent sources located inside the unknown object. Thus, the shape of the object

In this work we present a novel in-source dissociation scheme referred to as multipole storage assisted dissociation (MSAD) for electrospray ionization (ESI) generated ions in which dissociation is effected by employing extended ion accumulation intervals in a high pressure rf-only hexapole assembly

The multipole approach to the inverse electrocardiological problem consists of estimating the multipole components of the cardiac electric generator, starting from the measured body surface potential. This paper presents a critical investigation of the basic premise for the applicability of the mult