$(n,m)$-fold covers of spheres
Imre Bárányab,
Ruy Fabila-Monroyc,
Birgit Vogtenhuberd a Department of Mathematics, University College London, UK
b Alfréd Rényi Institute of Mathematics, Hungary Academy of Sciences, Budapest, Hungary
c Departamento de Matemáticas, Centro de Investigación y de Estudios Avanzados del Instituto Politécnico Nacional (CINVESTAV), México, D.F. CP 07360, México
d Institute for Software Technology, Graz University of Technology, Graz, Austria
Аннотация:
A well-known consequence of the Borsuk–Ulam theorem is that if the
$d$-dimensional sphere
$S^d$ is covered with less than
$d+2$ open sets, then there is a set containing a pair of antipodal points. In this paper we provide lower and upper bounds on the minimum number of open sets, not containing a pair of antipodal points, needed to cover the
$d$-dimensional sphere
$n$ times, with the additional property that the northern hemisphere is covered
$m>n$ times. We prove that if the open northern hemisphere is to be covered
$m$ times, then at least
$\lceil(d-1)/2\rceil+n+m$ and at most
$d+n+m$ sets are needed. For the case of
$n=1$ and
$d\ge2$, this number is equal to
$d+2$ if
$m\le\lfloor d/2\rfloor+1$ and equal to
$\lfloor(d-1)/2\rfloor+2+m$ if
$m>\lfloor d/2\rfloor+1$. If the closed northern hemisphere is to be covered
$m$ times, then
$d+2m-1$ sets are needed; this number is also sufficient. We also present results on a related problem of independent interest. We prove that if
$S^d$ is covered
$n$ times with open sets not containing a pair of antipodal points, then there exists a point that is covered at least
$\lceil d/2\rceil+n$ times. Furthermore, we show that there are covers in which no point is covered more than
$n+d$ times.
УДК:
515.1 Поступило в сентябре 2014 г.
Язык публикации: английский
DOI:
10.1134/S037196851501015X