Two-dimensional B-spline finite elements and their application to the computation of solitons

## Abstract Nested multigrid techniques are combined with the finite‐element method for the fast numerical solution of two‐dimensional electromagnetic scattering problems. The finite‐element modeling is performed on nested meshes of the same computational domain. The conjugate‐gradient method is us

An algorithm to solve the two-dimensional Schrodinger equation based on the finite-element method is proposed. In our scheme, the molecular Hamiltonian with any arbitrary internal coordinate system can be solved as easily as with the Cartesian coordinate system. The efficient computer program based

A new class of quadrilateral and hexahedral elements (four-and eight-noded in two and three dimensions, respectively) is presented. These elements are obtained by combining the concept of the equivalent parallelogram for plane problems, and the equivalent parallelepiped for three-dimensional problem

In electromagnetic field analysis, a systematic method of construction is presented for higher-order vector elements without respect to order. From the Helmholtz theorem, the vector basis functions are chosen. From the similarity with the scalar elements, the shape functions are determined by assign