Turkish Journal of Mathematics
DOI
10.55730/1300-0098.3165
Abstract
We study here the topological notion of Li-Yorke chaos defined for uniformly continuous self-maps defined on uniform Hausdorff spaces, which are not necessarily compact metrizable. We prove that a weakly mixing uniformly continuous self-map defined on a second countable Baire uniform Hausdorff space without isolated points is Li-Yorke chaotic. Further, we define and study the notion of topological distributional chaos in a sequence for uniformly continuous self-maps defined on uniform Hausdorff spaces. We prove that Li-Yorke chaos is equivalent to topological distributional chaos in a sequence for uniformly continuous self-maps defined on second countable Baire uniform Hausdorff space without isolated points. As a consequence, we obtain that Devaney chaos implies topological distributional chaos in a sequence.
Keywords
Devaney chaos, distributional chaos in a sequence, Li-Yorke chaos, uniform space, weakly mixing
First Page
1360
Last Page
1368
Recommended Citation
YADAV, NAVEENKUMAR and SHAH, SEJAL
(2022)
"Li-Yorke chaos and topological distributional chaos in a sequence,"
Turkish Journal of Mathematics: Vol. 46:
No.
4, Article 18.
https://doi.org/10.55730/1300-0098.3165
Available at:
https://journals.tubitak.gov.tr/math/vol46/iss4/18
