Fast Dimension Spectrum for a Potential with a Logarithmic Singularity

Philipp Gohlke; Georgios Lamprinakis; Jörg Schmeling

doi:10.1007/s10955-024-03252-5

Fast Dimension Spectrum for a Potential with a Logarithmic Singularity

Philipp Gohlke, Georgios Lamprinakis, Jörg Schmeling

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We regard the classic Thue–Morse diffraction measure as an equilibrium measure for a potential function with a logarithmic singularity over the doubling map. Our focus is on unusually fast scaling of the Birkhoff sums (superlinear) and of the local measure decay (superpolynomial). For several scaling functions, we show that points with this behavior are abundant in the sense of full Hausdorff dimension. At the fastest possible scaling, the corresponding rates reveal several remarkable phenomena. There is a gap between level sets for dyadic rationals and non-dyadic points, and beyond dyadic rationals, non-zero accumulation points occur only within intervals of positive length. The dependence between the smallest and the largest accumulation point also manifests itself in a non-trivial joint dimension spectrum.

Originalspråk	engelska
Artikelnummer	40
Tidskrift	Journal of Statistical Physics
Volym	191
Nummer	3
DOI	https://doi.org/10.1007/s10955-024-03252-5
Status	Published - 2024 mars

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Matematisk analys

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10.1007/s10955-024-03252-5Licens: CC BY

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title = "Fast Dimension Spectrum for a Potential with a Logarithmic Singularity",

abstract = "We regard the classic Thue–Morse diffraction measure as an equilibrium measure for a potential function with a logarithmic singularity over the doubling map. Our focus is on unusually fast scaling of the Birkhoff sums (superlinear) and of the local measure decay (superpolynomial). For several scaling functions, we show that points with this behavior are abundant in the sense of full Hausdorff dimension. At the fastest possible scaling, the corresponding rates reveal several remarkable phenomena. There is a gap between level sets for dyadic rationals and non-dyadic points, and beyond dyadic rationals, non-zero accumulation points occur only within intervals of positive length. The dependence between the smallest and the largest accumulation point also manifests itself in a non-trivial joint dimension spectrum.",

keywords = "37C45, 37D35, g-measure, Multifractal analysis, Unbounded potential",

author = "Philipp Gohlke and Georgios Lamprinakis and J{\"o}rg Schmeling",

year = "2024",

month = mar,

doi = "10.1007/s10955-024-03252-5",

language = "English",

volume = "191",

journal = "Journal of Statistical Physics",

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T1 - Fast Dimension Spectrum for a Potential with a Logarithmic Singularity

AU - Gohlke, Philipp

AU - Lamprinakis, Georgios

AU - Schmeling, Jörg

PY - 2024/3

Y1 - 2024/3

N2 - We regard the classic Thue–Morse diffraction measure as an equilibrium measure for a potential function with a logarithmic singularity over the doubling map. Our focus is on unusually fast scaling of the Birkhoff sums (superlinear) and of the local measure decay (superpolynomial). For several scaling functions, we show that points with this behavior are abundant in the sense of full Hausdorff dimension. At the fastest possible scaling, the corresponding rates reveal several remarkable phenomena. There is a gap between level sets for dyadic rationals and non-dyadic points, and beyond dyadic rationals, non-zero accumulation points occur only within intervals of positive length. The dependence between the smallest and the largest accumulation point also manifests itself in a non-trivial joint dimension spectrum.

AB - We regard the classic Thue–Morse diffraction measure as an equilibrium measure for a potential function with a logarithmic singularity over the doubling map. Our focus is on unusually fast scaling of the Birkhoff sums (superlinear) and of the local measure decay (superpolynomial). For several scaling functions, we show that points with this behavior are abundant in the sense of full Hausdorff dimension. At the fastest possible scaling, the corresponding rates reveal several remarkable phenomena. There is a gap between level sets for dyadic rationals and non-dyadic points, and beyond dyadic rationals, non-zero accumulation points occur only within intervals of positive length. The dependence between the smallest and the largest accumulation point also manifests itself in a non-trivial joint dimension spectrum.

KW - 37C45

KW - 37D35

KW - g-measure

KW - Multifractal analysis

KW - Unbounded potential

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DO - 10.1007/s10955-024-03252-5

M3 - Article

AN - SCOPUS:85187898679

SN - 0022-4715

VL - 191

JO - Journal of Statistical Physics

JF - Journal of Statistical Physics

IS - 3

M1 - 40

ER -

Fast Dimension Spectrum for a Potential with a Logarithmic Singularity

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