Open AccessDimension of the intersection of certain Cantor sets in the plane
Author(s) -
Steen Pedersen,
Vincent T. Shaw
Publication year - 2021
Publication title -
rocznik akademii górniczo-hutniczej im. stanisława staszica. opuscula mathematica/opuscula mathematica
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.481
H-Index - 16
eISSN - 2300-6919
pISSN - 1232-9274
DOI - 10.7494/opmath.2021.41.2.227
Subject(s) - mathematics , combinatorics , intersection (aeronautics) , hausdorff dimension , cantor set , dimension (graph theory) , plane (geometry) , integer (computer science) , base (topology) , beta (programming language) , discrete mathematics , mathematical analysis , geometry , computer science , engineering , programming language , aerospace engineering
In this paper we consider a retained digits Cantor set \(T\) based on digit expansions with Gaussian integer base. Let \(F\) be the set all \(x\) such that the intersection of \(T\) with its translate by \(x\) is non-empty and let \(F_{\beta}\) be the subset of \(F\) consisting of all \(x\) such that the dimension of the intersection of \(T\) with its translate by \(x\) is \(\beta\) times the dimension of \(T\). We find conditions on the retained digits sets under which \(F_{\beta}\) is dense in \(F\) for all \(0\leq\beta\leq 1\). The main novelty in this paper is that multiplication the Gaussian integer base corresponds to an irrational (in fact transcendental) rotation in the complex plane.