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Finite metric spaces of strictly negative type

✍ Scribed by Poul Hjorth; Petr Lisonĕk; Steen Markvorsen; Carsten Thomassen

Publisher
Elsevier Science
Year
1998
Tongue
English
Weight
737 KB
Volume
270
Category
Article
ISSN
0024-3795

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✦ Synopsis

We prove that, if a finite metric space is of strictly negative type, then its transfinite diameter is uniquely realized by the infinite extender (load vector). Finite metric spaces that have this property include all spaces on two, three, or four points, all trees, and all finite subspaces of Euclidean spaces. We prove that, if the distance matrix is both hypermetric and regular, then it is of strictly negative type. We show that the strictly negative type finite subspaces of spheres are precisely those which do not contain two pairs of antipodal points. In connection with an open problem raised by Kelly, we conjecture that all finite subspaces of hyperbolic spaces are hypermetric and regular, and hence of strictly negative type.

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