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Round function

From Wikipedia, the free encyclopedia

In topology and in calculus, a round function is a scalar function , over a manifold , whose critical points form one or several connected components, each homeomorphic to the circle , also called critical loops. They are special cases of Morse-Bott functions.

The black circle in one of this critical loops.

For instance

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For example, let be the torus. Let

Then we know that a map

given by

is a parametrization for almost all of . Now, via the projection we get the restriction

is a function whose critical sets are determined by

this is if and only if .

These two values for give the critical sets

which represent two extremal circles over the torus .

Observe that the Hessian for this function is

which clearly it reveals itself as rank of equal to one at the tagged circles, making the critical point degenerate, that is, showing that the critical points are not isolated.

Round complexity

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Mimicking the L–S category theory one can define the round complexity asking for whether or not exist round functions on manifolds and/or for the minimum number of critical loops.

References

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  • Siersma and Khimshiasvili, On minimal round functions, Preprint 1118, Department of Mathematics, Utrecht University, 1999, pp. 18.[1]. An update at [2]