Nonconventional averages along arithmetic progressions and lattice spin systems

Gioia Carinci; Jean René Chazottes; Cristian Giardinà; Frank Redig

doi:10.1016/j.indag.2012.05.010

Nonconventional averages along arithmetic progressions and lattice spin systems

Gioia Carinci
, Jean René Chazottes
, Cristian Giardinà
, Frank Redig

Research output: Contribution to journal › Article › peer-review

Abstract

We study the so-called nonconventional averages in the context of lattice spin systems, or equivalently random colorings of the integers. For i.i.d. colorings, we prove a large deviation principle for the number of monochromatic arithmetic progressions of size two in the box [1,N]∩N, as N→ ∞, with an explicit rate function related to the one-dimensional Ising model. For more general colorings, we prove some bounds for the number of monochromatic arithmetic progressions of arbitrary size, as well as for the maximal progression inside the box [1,N]∩N.Finally, we relate nonconventional sums along arithmetic progressions of size greater than two to statistical mechanics models in dimension larger than one.

Original language	English
Pages (from-to)	589-602
Number of pages	14
Journal	Indagationes Mathematicae
Volume	23
Issue number	3
DOIs	https://doi.org/10.1016/j.indag.2012.05.010
Publication status	Published - 1 Sept 2012

Keywords

Concentration inequalities
Ising model
Large deviations
Nonconventional averages

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10.1016/j.indag.2012.05.010

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AU - Carinci, Gioia

AU - Chazottes, Jean René

AU - Giardinà, Cristian

AU - Redig, Frank

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N2 - We study the so-called nonconventional averages in the context of lattice spin systems, or equivalently random colorings of the integers. For i.i.d. colorings, we prove a large deviation principle for the number of monochromatic arithmetic progressions of size two in the box [1,N]∩N, as N→ ∞, with an explicit rate function related to the one-dimensional Ising model. For more general colorings, we prove some bounds for the number of monochromatic arithmetic progressions of arbitrary size, as well as for the maximal progression inside the box [1,N]∩N.Finally, we relate nonconventional sums along arithmetic progressions of size greater than two to statistical mechanics models in dimension larger than one.

AB - We study the so-called nonconventional averages in the context of lattice spin systems, or equivalently random colorings of the integers. For i.i.d. colorings, we prove a large deviation principle for the number of monochromatic arithmetic progressions of size two in the box [1,N]∩N, as N→ ∞, with an explicit rate function related to the one-dimensional Ising model. For more general colorings, we prove some bounds for the number of monochromatic arithmetic progressions of arbitrary size, as well as for the maximal progression inside the box [1,N]∩N.Finally, we relate nonconventional sums along arithmetic progressions of size greater than two to statistical mechanics models in dimension larger than one.

KW - Concentration inequalities

KW - Ising model

KW - Large deviations

KW - Nonconventional averages

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Nonconventional averages along arithmetic progressions and lattice spin systems

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