Atlas: Proof of Dow's reflection theorem without elementary submodels by Jerry E. Vaughan

Atlas home || Conferences | Abstracts | about Atlas

1998 Spring Topology and Dynamics Conference
March 12-14, 1998
George Mason University
Fairfax, VA, USA

Organizers
John Kulesza, Kathy Alligood, Ronnie Levy

Proof of Dow's reflection theorem without elementary submodels
by
Jerry E. Vaughan
University of North Carolina at Greensboro
Coauthors: R. E. Hodel

A theorem of Alan Dow states that if X is a countably compact space in which every subspace of cardinality at most \aleph₁ is metrizable, then X is metrizable (in Topology Proc Vol. 13, No. 1, 1988). His proof uses elementary submodels. We give a new proof of this theorem without the use of elementary submodels. Our proof is a traditional closure argument similar to the proof of the Hajnal-Juhász reflection theorem, which in the special case relevant here, states: if X is any space in which every subspace of cardinality at most \aleph₁ has a countable base, then X has a countable base. A key concept in our proof is the notion of an < \omega₁, \omega > -structure which distills the closure argument used by Hajnal-Juhász, Dow, and others. Let (X, T) be a topological space. A set of the form { < M_\alpha, L_\alpha > :\alpha < \omega₁} is called an < \omega₁, \omega > -structure for (X, T) provided the following conditions hold for all \alpha < \omega₁: (CNTB) M_\alpha is a countable subset of X, and L_\alpha is a countable subset of T (INCR) M_\alpha subset M_\beta and L_\alpha subset L_\beta for all \alpha < \beta < \omega₁ (CONT) If \alpha is a limit ordinal then M_\alpha = \cup _{\beta < \alpha}M_\beta, and L_\alpha = \cup _{\beta < \alpha}L_\beta (BASE) {U \cap M:U in L} is a base for the subspace topology on M, where M = \cup _{\beta < \omega₁}M_\beta, and L = \cup _{\beta < \omega₁}L_\beta.

Date received: February 13, 1998