
Accession Number : AD0663231
Title : INTEGRALTRANSFORM FORMULATION OF DIFFRACTION THEORY,
Corporate Author : AEROSPACE CORP EL SEGUNDO CALIF LAB OPERATIONS
Personal Author(s) : Sherman,George C.
Report Date : OCT 1967
Pagination or Media Count : 36
Abstract : An exact integraltransform formulation of the theory of the diffraction of monochromatic scalar waves from an infinite plane boundary with known boundary values is developed from first principles. The formulation is analogous to the Fouriertransform formulation of Fraunhofer diffraction, except that it is exact and is valid for both Fresnel and Fraunhofer diffraction. The known wavefunction on the boundary is expanded into a linear superposition of pointconvergence patterns. The pointconvergence pattern is defined as the pattern of the wavefunction that must exist on the boundary in order to produce a Dirac deltafunction distribution of the wavefunction on a plane of observation that is parallel to the boundary. This pattern is described by a pointconvergence function h determined by the position of the deltafunction singularity on the plane of observation and the distance of that plane from the boundary. The pointconvergence function is orthogonal to a function g called the pointdivergence function. Together g and h serve as kernels for a new integral transform called the diffraction transform. The pattern of the wavefunction on the plane of observation is the diffraction transform of the wavefunction on the boundary. We show that g represents the field of a dipole while h cannot be expressed by an ordinary function and must be defined as a functional. Successive diffraction transformations are discussed, and the transform formulation of Fraunhofer diffraction is obtained as a special case from the diffractiontransform theory. (Author)
Descriptors : (*DIFFRACTION, MATHEMATICAL ANALYSIS), INTEGRAL TRANSFORMS, BOUNDARY VALUE PROBLEMS, WAVE FUNCTIONS, LENSES, OPTICAL IMAGES
Subject Categories : Optics
Distribution Statement : APPROVED FOR PUBLIC RELEASE