Numerical Green’s function method based on the DE transformation

The present paper describes an efficient time/Laplace domain approach to analyze numerically heat conduction problems. An efficient recurrence relationship for the temperature in the time-domain, based on the Green's functions of the model, is presented. Primarily, Green's functions in nodal coordin

The numerical Green's function (NGF) technique, previously proposed by the present authors, is here extended to fracture mechanics problems involving Reissner's plate theory. The technique numerically produces a plate bending fundamental Green's function that automatically includes embedded cracks t

## Abstract The KOHN and ROSTOKER Green's‐function method is generalized to include the presence of surface states in a semi‐infinite three dimensional periodic structure. Only the case in which the unit cell contains one atom is considered. It is shown that two dimensional energy bands of surface

The present paper describes a new family of time stepping methods to integrate dynamic equations of motion. The scalar wave equation is considered here; however, the method can be applied to time-domain analyses of other hyperbolic (e.g., elastodynamics) or parabolic (e.g., transient diffusion) prob