摘要
列出了一大组基本SFF和复合SFF,表明由Caola给出的并不是全部的SFF。其次指出了由Caola以及Lohmann等先后提出的由任意函数构造一个SFF的定义式的局限性,进一步提出了由奇函数构造一个SFF的定义式以及反相SFF的概念。最后讨论了SFF的一些重要性质及应用。
In my several year research on optical information processing, I have come to find thatprevious theoretical work on self-Fourier function (in 1991, Caola [2] first used the term:'self-Fourier function' ) can be of much help. But further theoretical work needs to bedone to make it more useful in optical information processing.It is known that generally the space spectrum of an object is unlike the object itself.However, in Fourier optics, there are many important functions [1], which are their ownFourier transforms, defined as self-Fourier fUnctions (SFF's). Caola [2] has discovered aset of SFF's and proposed how to construct a SFF from an arbitrary and transformable function, i. e., Caola's SFF. Lohmann et al [3] discussed Caola's SFF and showed that Caoladiscovered all SFF's Proceeding from the cyclic property of a transform, Lohmann et al furthermore proposed that, for an arbitrary and cyclic transform, there is a self-transformfunction (STF), which can be constructed from an arbitrary and transformable function.Caola's SFF is just a special case of Lohmann's STF. In this paper, I show that the set ofSFF's as discovered by Caola does not include all SFF'S, and that the Caola's SFF is not applicable to odd functions. Eq. (26) can be used to construct a SFF from an arbitrary andtransformable odd function.
出处
《西北工业大学学报》
EI
CAS
CSCD
北大核心
1995年第4期490-494,共5页
Journal of Northwestern Polytechnical University
关键词
傅时叶变换
自傅里叶函数
自变换函数
Fourier transform, self-Fourier function (SFF), self- transform function (STF)
