An example of a rigid -superuniversal metric space

Abstract

For a cardinal > ω a metric space X is called to be -superuniversal whenever for every metric space Y with |Y| < every partial isometry from a subset of Y into X can be extended over the whole space Y. Examples of such spaces were given by Hechler [1] and Katetov [2]. In particular, Katetov showed that if ω < = < , then there exists a -superuniversal K which is moreover -homogeneous, i.e. every isometry of a subspace Y⊂eq K with |Y|< can be extended to an isometry of the whole K. In connection of this W. Kubi\'s suggested that there should also exist a -superuniversal space that is not -homogeneous. In this paper there is shown that for every cardinal there exists a -superuniversal space which is rigid, i.e. has exactly one isometry, namely the identity. The construction involves an amalgamation-like property of a family of metric spaces.