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MULTIPLE AND POLYNOMIAL RECURRENCE FOR ABELIAN ACTIONS IN INFINITE MEASURE

Published online by Cambridge University Press:  28 January 2004

ALEXANDRE I. DANILENKO  and
CESAR E. SILVA
ALEXANDRE I. DANILENKO
Affiliation:
Division of Mathematics, Institute for Low Temperature Physics and Engineering, 47 Lenin Avenue, Kharkov 61103, [email protected]
CESAR E. SILVA
Affiliation:
Department of Mathematics, Williams College, Williamstown, MA 01267, [email protected]
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Abstract

The $(C,F)$-construction from a previous paper of the first author is applied to produce a number of funny rank one infinite measure preserving actions of discrete countable Abelian groups $G$ with ‘unusual’ multiple recurrence properties. In particular, the following are constructed for each $p\in\Bbb N\cup\{\infty\}$:

  1. (i) a $p$-recurrent action $T=(T_g)_{g\in G}$ such that (if $p\ne\infty$) no one transformation $T_g$ is $(p+1)$-recurrent for every element $g$ of infinite order;

  2. (ii) an action $T=(T_g)_{g\in G}$ such that for every finite sequence $g_1,\dots,g_r\in G$ without torsion the transformation $T_{g_1}\times\cdots\times T_{g_r}$ is ergodic, $p$-recurrent but (if $p\ne\infty$) not $(p+1)$-recurrent;

  3. (iii) a $p$-polynomially recurrent $(C,F)$-transformation which (if $p\ne\infty$) is not $(p+1)$-recurrent.

$\infty$-recurrence here means multiple recurrence. Moreover, it is shown that there exists a $(C,F)$-transformation which is rigid (and hence multiply recurrent) but not polynomially recurrent. Nevertheless, the subset of polynomially recurrent transformations is generic in the group of infinite measure preserving transformations endowed with the weak topology.

Keywords

37A40 (primary)37A25 (secondary)
Type
Notes and Papers
Information
Journal of the London Mathematical Society , Volume 69 , Issue 1 , February 2004 , pp. 183 - 200
Copyright
The London Mathematical Society 2004

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Footnotes

This project was supported in part by the NSF under the Collaboration in Basic Science and Engineering Program, contract INT-0002341.