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| Auteurs principaux: | , , , |
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| Format: | Preprint |
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2025
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| Accès en ligne: | https://arxiv.org/abs/2511.22802 |
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| _version_ | 1866913026606628864 |
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| author | Ralston, D. Tangerman, F. M. Veerman, J. J. P. Wu, H. |
| author_facet | Ralston, D. Tangerman, F. M. Veerman, J. J. P. Wu, H. |
| contents | We study the distribution of a sequence of points in the circle generated by rotations by a fixed irrational number $ρ$ with initial condition $x_0$, that is: $\{x_0+iρ\}_{i=1}^n$. The \emph{discrepancy} as defined by Pisot and Van Der Corput \cite{VdCP}, quantifies how evenly distributed such a sequence is.
Consider the ergodic or Birkhoff sum of mean zero $S(ρ,n,x):=\sum_{i=1}^{n} (\{x+iρ\}-1/2)$, where $\{\cdot\}$ denotes the fractional part. This is a piecewise-linear map in the variable $x$ with $n$ branches, each with slope $n$. For fixed $n$ and $ρ$, let $ν(ρ,n,z)$ be the number of pre-images of $S(ρ,n,x)=z$ divided by $n$. Then $ν(ρ,n,z)$ is a probability density. We call the associated measures Birkhoff measures. We investigate how the graph of $ν(ρ,n,z)$ varies with $n$.
We prove that the length of the support of the Birkhoff measure $ν(ρ,n,z)dz$ can be expressed in terms of the discrepancy. We also show that if $n$ is a continued fraction denominator of $ρ$, then the graph of $ν(ρ,n,z)$ an approximate isosceles trapezoid. We also give new, brief, proofs of two classical results, one by Ramshaw \cite{Ramshaw} and one found by Kuipers-Niederreiter \cite{KN}. These results allow efficient computation of both Birkhoff sums and discrepancies. |
| format | Preprint |
| id |
arxiv_https___arxiv_org_abs_2511_22802 |
| institution | arXiv |
| publishDate | 2025 |
| record_format | arxiv |
| spellingShingle | Birkhoff Measures, Birkhoff Sums, and Discrepancies Ralston, D. Tangerman, F. M. Veerman, J. J. P. Wu, H. Dynamical Systems Number Theory 37E10 We study the distribution of a sequence of points in the circle generated by rotations by a fixed irrational number $ρ$ with initial condition $x_0$, that is: $\{x_0+iρ\}_{i=1}^n$. The \emph{discrepancy} as defined by Pisot and Van Der Corput \cite{VdCP}, quantifies how evenly distributed such a sequence is. Consider the ergodic or Birkhoff sum of mean zero $S(ρ,n,x):=\sum_{i=1}^{n} (\{x+iρ\}-1/2)$, where $\{\cdot\}$ denotes the fractional part. This is a piecewise-linear map in the variable $x$ with $n$ branches, each with slope $n$. For fixed $n$ and $ρ$, let $ν(ρ,n,z)$ be the number of pre-images of $S(ρ,n,x)=z$ divided by $n$. Then $ν(ρ,n,z)$ is a probability density. We call the associated measures Birkhoff measures. We investigate how the graph of $ν(ρ,n,z)$ varies with $n$. We prove that the length of the support of the Birkhoff measure $ν(ρ,n,z)dz$ can be expressed in terms of the discrepancy. We also show that if $n$ is a continued fraction denominator of $ρ$, then the graph of $ν(ρ,n,z)$ an approximate isosceles trapezoid. We also give new, brief, proofs of two classical results, one by Ramshaw \cite{Ramshaw} and one found by Kuipers-Niederreiter \cite{KN}. These results allow efficient computation of both Birkhoff sums and discrepancies. |
| title | Birkhoff Measures, Birkhoff Sums, and Discrepancies |
| topic | Dynamical Systems Number Theory 37E10 |
| url | https://arxiv.org/abs/2511.22802 |