Isometry groups of separable metric spaces

Abstract: Abstract. We show that every locally compact Polish group is isomorphic to the isometry group of a proper separable metric space. This answers a question of Gao and Kechris. We also analyze the natural action of the isometry group of a separable ultrametric space on the space. This leads us to a structure theorem representing an arbitrary separable ultrametric space as a bundle with an ultrametric base and with ultrahomogeneous fibers which are invariant under the action of the isometry group. IntroductionFor … Show more

“…The next lemma is a simplified version of [5,Lemma 4.4]. Because y = f (y) for every y ∈ Y , x witnesses that there exists…”

“…It has been proved in [5] that for every Polish ultrametric space X there exists a complete pseudo-ultrametric d 1 on the set of orbits X/Iso(X) = { x : x ∈ X} defined by d 1 ( x , y ) = dist( x , y ).…”

“…Moreover, by [5,Lemma 4.4], every orbit x is closed, so X/Iso(X) = X/d 1 , where X/d 1 is the metric identification of d 1 . This gives rise to a projection π : X → X/d 1 defined by x → x .…”

“…for every x ∈ X; in particular, x α is closed for every x ∈ X; (4) X/d α is complete, and so it is a Polish ultrametric space; (5) Proof. Point (1) is clear, and Point (2) easily follows from the definition of pseudo-metric.…”

“…In the last section we analyze the canonical projection of a Polish ultrametric space X on the Polish ultrametric space of orbits of the natural action of Iso(X) on X, as described in [5]. Iterating this construction leads to a sequence of Polish ultrametric spaces, and their projections.…”

Generic elements in isometry groups of Polish ultrametric spaces

“…The next lemma is a simplified version of [5,Lemma 4.4]. Because y = f (y) for every y ∈ Y , x witnesses that there exists…”

“…It has been proved in [5] that for every Polish ultrametric space X there exists a complete pseudo-ultrametric d 1 on the set of orbits X/Iso(X) = { x : x ∈ X} defined by d 1 ( x , y ) = dist( x , y ).…”

“…Moreover, by [5,Lemma 4.4], every orbit x is closed, so X/Iso(X) = X/d 1 , where X/d 1 is the metric identification of d 1 . This gives rise to a projection π : X → X/d 1 defined by x → x .…”

“…for every x ∈ X; in particular, x α is closed for every x ∈ X; (4) X/d α is complete, and so it is a Polish ultrametric space; (5) Proof. Point (1) is clear, and Point (2) easily follows from the definition of pseudo-metric.…”

“…In the last section we analyze the canonical projection of a Polish ultrametric space X on the Polish ultrametric space of orbits of the natural action of Iso(X) on X, as described in [5]. Iterating this construction leads to a sequence of Polish ultrametric spaces, and their projections.…”

Generic elements in isometry groups of Polish ultrametric spaces

Isometric models for separable groups with a bi-invariant metric

Spatial models of Boolean actions and groups of isometries