A uniform contraction principle for bounded Apollonian embeddings

Abstract

Let H denote the standard one-point completion of a real Hilbert space. Given any non-trivial proper sub-set U of H one may define the so-called `Apollonian' metric dU on U. When U ⊂ V ⊂ H are nested proper subsets we show that their associated Apollonian metrics satisfy the following uniform contraction principle: Let D=diamV (U) ∈ [0,+∞] be the diameter of the smaller subsets with respect to the large. Then for every x,y in U we have dV(x,y) ≤ tanh (D/4) dU(x,y). In dimension one, this contraction principle was established by Birkhoff for the Hilbert metric of finite segments on RP1. In dimension two it was shown by Dubois for subsets of the Riemann sphere. It is new in the generality stated here.