Isometries between spaces of metrics

Abstract

Given a metrizable space Z, denote by PM(Z) the space of continuous bounded pseudometrics on Z, and denote by AM(Z) the one of continuous bounded admissible metrics on Z, the both of which are equipped with the sup-norm \|·\|. Let Pc(Z) be the subspace of AM(Z) satisfying the following: itemize for every d ∈ Pc(Z), there exists a compact subset K ⊂ Z such that if d(x,y) = \|d\|, then x, y ∈ K. itemize Moreover, set Pp(Z) = \d ∈ AM(Z) there only exists \z,w\ ⊂ Z such that d(z,w) = \|d\|\, and let M(Z) be Pc(Z) or Pp(Z). In this paper, we shall prove the Banach-Stone type theorem on spaces of metrics, that is, for metrizable spaces X and Y, the following are equivalent: enumerate X and Y are homeomorphic; there exists a surjective isometry T : PM(X) PM(Y) with T( M(X)) = M(Y); there exists a surjective isometry T : AM(X) AM(Y) with T( M(X)) = M(Y); there exists a surjective isometry T : M(X) M(Y). enumerate Then for each surjective isometry T : PM(X) PM(Y) with T( M(X)) = M(Y), there is a homeomorphism φ : Y X such that for any d ∈ PM(X) and for any x, y ∈ Y, T(d)(x,y) = d(φ(x),φ(y)). Except for the case where the cardinality of X or Y is equal to 2, the homeomorphism φ can be chosen uniquely.