Busemann G-space
In mathematics, a Busemann G-space is a type of metric space first described by Herbert Busemann in 1942.
If is a metric space such that
- for every two distinct there exists such that (Menger convexity)
- every -bounded set of infinite cardinality possesses accumulation points
- for every there exists such that for any distinct points there exists such that (geodesics are locally extendable)
- for any distinct points , if such that , and (geodesic extensions are unique).
then X is said to be a Busemann G-space. Every Busemann G-space is a homogenous space.
The Busemann conjecture states that every Busemann G-space is a topological manifold. It is a special case of the Bing–Borsuk conjecture. The Busemann conjecture is known to be true for dimensions 1 to 4.[1][2]
References
- M., Halverson, Denise; Dušan, Repovš, (23 December 2008). "The Bing–Borsuk and the Busemann conjectures". Mathematical Communications. 13 (2). ISSN 1331-0623.CS1 maint: extra punctuation (link)
- Papadopoulos, Athanase (2005). Metric Spaces, Convexity and Nonpositive Curvature. European Mathematical Society. p. 77. ISBN 9783037190104.
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