Pair correlation for quadratic polynomials mod 1

Marklof, Jens; Yesha, Nadav

doi:10.1112/s0010437x17008028

Cited by 15 publications

(9 citation statements)

References 26 publications

(55 reference statements)

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“…For instance (1.2) is known to hold for ξ j = 〈 j k α〉 (k ≥ 2 a fixed integer) for Lebesgue-almost every α [16], and a lower bound on the Haussdorff dimension of permissible α has recently been established [3]. But so far there is not a single explicit example of α, such as α = 2 or α = π, for which (1.2) holds; not even in the quadratic case k = 2 [9,13,14]. There has been significant recent progess in characterising the Poisson pair correlation (1.2) for general sequences ξ j = 〈a j α〉, for Lebesgue-almost every α, in terms of the additive energy of the integer coefficients a j ; cf.…”

Section: Introductionmentioning

confidence: 99%

Pair correlation and equidistribution on manifolds

Marklof

2019

Monatsh Math

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This study is motivated by a series of recent papers that show that, if a given deterministic sequence in the unit interval has a Poisson pair correlation function, then the sequence is uniformly distributed. Analogous results have been proved for point sequences on higher-dimensional tori. The purpose of this paper is to describe a simple statistical argument that explains this observation and furthermore permits a generalisation to bounded Euclidean domains as well as compact Riemannian manifolds.

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Section: Introductionmentioning

confidence: 99%

Pair correlation and equidistribution on manifolds

Marklof

2019

Monatsh Math

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“…• Rudnick, Sarnak, and Zaharescu [25] conjectured that skew-shift orbits exhibit Poissonian spacing (as i.i.d. sequences would), and in fact proved this along subsequences for topologically generic frequencies; see also [13,20,21,24]. By contrast, the spacing distribution of irrational circle rotation displays level repulsion [5,23].…”

Section: Introduction and Main Resultsmentioning

confidence: 85%

Global eigenvalue distribution of matrices defined by the skew-shift

Adhikari,

Lemm,

Yau

2019

Preprint

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We consider large Hermitian matrices whose entries are defined by evaluating the exponential function along orbits of the skew-shift j 2 ω + jy + x mod 1 for irrational ω. We prove that the eigenvalue distribution of these matrices converges to the corresponding distribution from random matrix theory on the global scale, namely, the Wigner semicircle law for square matrices and the Marchenko-Pastur law for rectangular matrices. The results evidence the quasi-random nature of the skew-shift dynamics which was observed in other contexts by Bourgain-Goldstein-Schlag and Rudnick-Sarnak-Zaharescu.

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“…A notable exception is the sequence ( √ n) n∈Z ≥1 \ , which is known to have Poissonian pair correlation [16]. The sequence (n 2 α) n≥1 is conjectured to have Poissonian pair correlation under mild Diophantine assumptions on α, but only partial results are known in this direction [20,29,33,41]. Lacking specific examples, it is natural to turn to a metric theory instead.…”

Section: Introduction and Statement Of Resultsmentioning

confidence: 99%

A pair correlation problem, and counting lattice points with the zeta function

Aistleitner¹,

El-Baz²,

Munsch³

2020

Preprint

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The pair correlation is a localized statistic for sequences in the unit interval. Pseudo-random behavior with respect to this statistic is called Poissonian behavior. The metric theory of pair correlations of sequences of the form (anα) n≥1 has been pioneered by Rudnick, Sarnak and Zaharescu. Here α is a real parameter, and (an) n≥1 is an integer sequence, often of arithmetic origin. Recently, a general framework was developed which gives criteria for Poissonian pair correlation of such sequences for almost every real number α, in terms of the additive energy of the integer sequence (an) n≥1 . In the present paper we develop a similar framework for the case when (an) n≥1 is a sequence of reals rather than integers, thereby pursuing a line of research which was recently initiated by Rudnick and Technau. As an application of our method, we prove that for every real number θ > 1, the sequence (n θ α) n≥1 has Poissonian pair correlation for almost all α ∈ R.

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Pair correlation for quadratic polynomials mod 1

Cited by 15 publications

References 26 publications

Pair correlation and equidistribution on manifolds

Pair correlation and equidistribution on manifolds

Global eigenvalue distribution of matrices defined by the skew-shift

A pair correlation problem, and counting lattice points with the zeta function

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