On the arithmetic difference of middle Cantor sets
Abstract
Suppose that is the space of all middle Cantor sets. We characterize all triples that satisfy Also all triples (that are dense in ) has been determined such that forms the attractor of an iterated function system. Then we found a new family of the pair of middle Cantor sets in a way that for each , there exists a dense subfield such that for each , the set contains an interval or has zero Lebesgue measure. In sequel, conditions on the functions and the pair is provided which contains an interval. This leads us to denote another type of stability in the intersection of two Cantor sets. We prove the existence of this stability for regular Cantor sets that have stable intersection and its absence for those which the sum of their Hausdorff dimension is less than one. At the end, special middle Cantor sets and are introduced. Then the iterated function system corresponding to the attractor is characterized. Some specifications of the attractor has been presented that keep our example as an exception. We also show that - contains at least one interval.
Cite
@article{arxiv.1306.5880,
title = {On the arithmetic difference of middle Cantor sets},
author = {M. Pourbarat},
journal= {arXiv preprint arXiv:1306.5880},
year = {2016}
}