Convolution quotient

In mathematics, a convolution quotient is to the operation of convolution as a quotient of integers is to multiplication. Convolution quotients were introduced by Mikusiński (1949), and their theory is sometimes called Mikusiński's operational calculus.

The kind of convolution ${\textstyle (f,g)\mapsto f*g}$ with which this theory is concerned is defined by

${\displaystyle (f*g)(x)=\int _{0}^{x}f(u)g(x-u)\,du.}$

It follows from the Titchmarsh convolution theorem that if the convolution ${\textstyle f*g}$ of two functions ${\textstyle f,g}$ that are continuous on ${\textstyle [0,+\infty )}$ is equal to 0 everywhere on that interval, then at least one of ${\textstyle f,g}$ is 0 everywhere on that interval. A consequence is that if ${\textstyle f,g,h}$ are continuous on ${\textstyle [0,+\infty )}$ then ${\textstyle h*f=h*g}$ only if ${\textstyle f=g.}$ This fact makes it possible to define convolution quotients by saying that for two functions ƒ, g, the pair (ƒ, g) has the same convolution quotient as the pair (h * ƒ,h * g).

Convolution quotients are used in an approach to making Dirac's delta function and other generalized functions logically rigorous.