arXiv:math/0412177 Abstract

arXiv:math/0412177 [math.DS]Abstract References Reviews Resources

Ergodic Averages for Independent Polynomials and Applications

Published 2004-12-08, updated 2006-03-29Version 2

Szemer\'edi's Theorem states that a set of integers with positive upper density contains arbitrarily long arithmetic progressions. Bergelson and Leibman generalized this, showing that sets of integers with positive upper density contain arbitrarily long polynomial configurations; Szemer\'edi's Theorem corresponds to the linear case of the polynomial theorem. We focus on the case farthest from the linear case, that of rationally independent polynomials. We derive results in ergodic theory and in combinatorics for rationally independent polynomials, showing that their behavior differs sharply from the general situation.

Comments: 12 pages

Categories: math.DS, math.CO

Subjects: 37A45, 37A30, 28D05, 05D10

Keywords: independent polynomials, ergodic averages, arbitrarily long polynomial configurations, contain arbitrarily long polynomial, arbitrarily long arithmetic progressions

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Ergodic Averages for Independent Polynomials and Applications

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Ergodic Averages for Independent Polynomials and Applications

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arXiv:math/0412177 [math.DS]Abstract References Reviews Resources