Vanish at infinity

(Redirected from Rapidly decreasing)

In mathematics, a function is said to vanish at infinity if its values approach 0 as the input grows without bounds. There are two different ways to define this with one definition applying to functions defined on normed vector spaces and the other applying to functions defined on locally compact spaces. Aside from this difference, 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 one approaches it. This definition can be formalized in many cases by adding an (actual) point at infinity.

Definitions edit

A function on a normed vector space is said to vanish at infinity if the function approaches   as the input grows without bounds (that is,   as  ). Or,

 

in the specific case of functions on the real line.

For example, the function

 

defined on the real line vanishes at infinity.

Alternatively, a function   on a locally compact space vanishes at infinity, if given any positive number ε, there exists a compact subset   such that

 

whenever the point   lies outside of  [1][2] In other words, for each positive number ε the set   has compact closure. For a given locally compact space   the set of such functions

 

valued in   which is either   or   forms a  -vector space with respect to pointwise scalar multiplication and addition, which is often denoted  

As an example, the function

 

where   and   are reals greater or equal 1 and correspond to the point   on   vanishes at infinity.

A normed space is locally compact if and only if it is finite-dimensional so in this particular case, there are two different definitions of a function "vanishing at infinity". The two definitions could be inconsistent with each other: if   in an infinite dimensional Banach space, then   vanishes at infinity by the   definition, but not by the compact set definition.

Rapidly decreasing edit

Refining the concept, one can look more closely to 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

 

for all  , as  , and such that all their partial derivatives satisfy the same 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 property.

See also edit

Citations edit

  1. ^ "Function vanishing at infinity - Encyclopedia of Mathematics". www.encyclopediaofmath.org. Retrieved 2019-12-15.
  2. ^ "vanishing at infinity in nLab". ncatlab.org. Retrieved 2019-12-15.

References edit

  • Hewitt, E and Stromberg, K (1963). Real and abstract analysis. Springer-Verlag.{{cite book}}: CS1 maint: multiple names: authors list (link)