Vanish at infinity

From Wikipedia, the free encyclopedia

In mathematics, a function on a normed vector space is said to vanish at infinity if f(x)\to 0 as \|x\|\to \infty. For example, the function

f(x)=\frac{1}{1+x^2}

defined on the real line vanishes at infinity.

There is a generalization of this to a locally compact setting. A function f on a locally compact space (which may not have a norm) vanishes at infinity if, given any positive number ε, there is a compact subset K such that \|f(x)\| < \epsilon whenever the point x lies outside of K.

Both of these notions correspond to the intuitive notion of adding a point "at infinity" and requiring the values of the function to get arbitrarily close to zero as we approach it. This "definition" can be formalized in many cases by adding a point at infinity.

Refining the concept, one can look more closely at the rate of vanishing of functions at infinity. One of the basic intuitions of mathematical analysis is that the Fourier transform interchanges smoothness conditions with rate conditions on vanishing at infinity. The rapidly decreasing test functions of tempered distribution theory are smooth functions that are

o(|x|N)

for all N, as |x| → ∞, and such that all their partial derivatives satisfy that condition, too. This condition is set up so as to be self-dual under Fourier transform, so that the corresponding distribution theory of tempered distributions will have the same good property.

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