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Rigidity Theorems for Actions of Product Groups and Countable Borel Equivalence Relations
Greg Hjorth, University of California, Los Angeles, CA, and Alexander S. Kechris, Caltech, Pasadena, CA
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Memoirs of the American Mathematical Society
2005; 109 pp; softcover
Volume: 177
ISBN-10: 0-8218-3771-0
ISBN-13: 978-0-8218-3771-9
List Price: US$63
Individual Members: US$37.80
Institutional Members: US$50.40
Order Code: MEMO/177/833
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This Memoir is both a contribution to the theory of Borel equivalence relations, considered up to Borel reducibility, and measure preserving group actions considered up to orbit equivalence. Here \(E\) is said to be Borel reducible to \(F\) if there is a Borel function \(f\) with \(x E y\) if and only if \(f(x) F f(y)\). Moreover, \(E\) is orbit equivalent to \(F\) if the respective measure spaces equipped with the extra structure provided by the equivalence relations are almost everywhere isomorphic.

We consider product groups acting ergodically and by measure preserving transformations on standard Borel probability spaces. In general terms, the basic parts of the monograph show that if the groups involved have a suitable notion of "boundary" (we make this precise with the definition of near hyperbolic), then one orbit equivalence relation can only be Borel reduced to another if there is some kind of algebraic resemblance between the product groups and coupling of the action. This also has consequence for orbit equivalence. In the case that the original equivalence relations do not have non-trivial almost invariant sets, the techniques lead to relative ergodicity results. An equivalence relation \(E\) is said to be relatively ergodic to \(F\) if any \(f\) with \(xEy \Rightarrow f(x) F f(y)\) has \([f(x)]_F\) constant almost everywhere.

This underlying collection of lemmas and structural theorems is employed in a number of different ways.

One of the most pressing concerns was to give completely self-contained proofs of results which had previously only been obtained using Zimmer's superrigidity theory. We present "elementary proofs" that there are incomparable countable Borel equivalence relations (Adams-Kechris), inclusion does not imply reducibility (Adams), and \((n+1)E\) is not necessarily reducible to \(nE\) (Thomas).

In the later parts of the paper we give applications of the theory to specific cases of product groups. In particular, we catalog the actions of products of the free group and obtain additional rigidity theorems and relative ergodicity results in this context.

There is a rather long series of appendices, whose primary goal is to give the reader a comprehensive account of the basic techniques. But included here are also some new results. For instance, we show that the Furstenberg-Zimmer lemma on cocycles from amenable groups fails with respect to Baire category, and use this to answer a question of Weiss. We also present a different proof that \(F_2\) has the Haagerup approximation property.

Table of Contents

  • Introduction
  • Preliminaries
  • Actions of free groups and treeable equivalence relations
  • A cocycle reduction result
  • Some applications
  • Factoring homomorphisms
  • Further applications
  • Product actions, I
  • Product actions, II
  • A Final application
  • Appendix A. Strong notions of ergodicity
  • Appendix B. Cocycles and cocycle-invariant functions
  • Appendix C. Actions on boundaries
  • Appendix D. \(\mathcal{K}\)-structured Equivalence relations
  • Appendix E. Proof of the general case of Theorem 4.4
  • Bibliography
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