On the number variance of sequences with small additive energy

Zonglin Li; Nadav Yesha

doi:10.1016/j.jnt.2024.06.006

On the number variance of sequences with small additive energy

Zonglin Li, Nadav Yesha

Department of Mathematics

University of Haifa

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

Abstract

For a real-valued sequence (x_n)_n=1^∞, denote by S_N(ℓ) the number of its first N fractional parts lying in a random interval of size ℓ:=L/N, where L=o(N) as N→∞. We study the variance of S_N(ℓ) (the number variance) for sequences of the form x_n=αa_n, where (a_n)_n=1^∞ is a sequence of distinct integers. We show that if the additive energy of the sequence (a_n)_n=1^∞ is bounded from above by N^3−ε/L² for some ε>0, then for almost all α, the number variance is asymptotic to L (Poissonian number variance). This holds in particular for the sequence x_n=αn^d,d≥2 whenever L=N^β with 0≤β<1/2.

Original language	American English
Pages (from-to)	344-355
Number of pages	12
Journal	Journal of Number Theory
Volume	265
DOIs	https://doi.org/10.1016/j.jnt.2024.06.006
State	Published - Dec 2024

Keywords

Additive energy
Number variance
Pair correlation
Uniform distribution modulo 1

All Science Journal Classification (ASJC) codes

Algebra and Number Theory

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10.1016/j.jnt.2024.06.006

Cite this

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title = "On the number variance of sequences with small additive energy",

abstract = "For a real-valued sequence (xn)n=1∞, denote by SN(ℓ) the number of its first N fractional parts lying in a random interval of size ℓ:=L/N, where L=o(N) as N→∞. We study the variance of SN(ℓ) (the number variance) for sequences of the form xn=αan, where (an)n=1∞ is a sequence of distinct integers. We show that if the additive energy of the sequence (an)n=1∞ is bounded from above by N3−ε/L2 for some ε>0, then for almost all α, the number variance is asymptotic to L (Poissonian number variance). This holds in particular for the sequence xn=αnd,d≥2 whenever L=Nβ with 0≤β<1/2.",

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T1 - On the number variance of sequences with small additive energy

AU - Li, Zonglin

AU - Yesha, Nadav

PY - 2024/12

Y1 - 2024/12

N2 - For a real-valued sequence (xn)n=1∞, denote by SN(ℓ) the number of its first N fractional parts lying in a random interval of size ℓ:=L/N, where L=o(N) as N→∞. We study the variance of SN(ℓ) (the number variance) for sequences of the form xn=αan, where (an)n=1∞ is a sequence of distinct integers. We show that if the additive energy of the sequence (an)n=1∞ is bounded from above by N3−ε/L2 for some ε>0, then for almost all α, the number variance is asymptotic to L (Poissonian number variance). This holds in particular for the sequence xn=αnd,d≥2 whenever L=Nβ with 0≤β<1/2.

AB - For a real-valued sequence (xn)n=1∞, denote by SN(ℓ) the number of its first N fractional parts lying in a random interval of size ℓ:=L/N, where L=o(N) as N→∞. We study the variance of SN(ℓ) (the number variance) for sequences of the form xn=αan, where (an)n=1∞ is a sequence of distinct integers. We show that if the additive energy of the sequence (an)n=1∞ is bounded from above by N3−ε/L2 for some ε>0, then for almost all α, the number variance is asymptotic to L (Poissonian number variance). This holds in particular for the sequence xn=αnd,d≥2 whenever L=Nβ with 0≤β<1/2.

KW - Additive energy

KW - Number variance

KW - Pair correlation

KW - Uniform distribution modulo 1

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U2 - 10.1016/j.jnt.2024.06.006

DO - 10.1016/j.jnt.2024.06.006

M3 - Article

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SP - 344

EP - 355

JO - Journal of Number Theory

JF - Journal of Number Theory

ER -

On the number variance of sequences with small additive energy

Abstract

Keywords

All Science Journal Classification (ASJC) codes

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