The Morse minimal system is nearly continuously Kakutani equivalent to the binary odometer |
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Authors: | Email author" target="_blank">Andrew?DykstraEmail author Ay?e??ahin |
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Institution: | 1.Department of Mathematics,Hamilton College,Clinton,USA;2.Department of Mathematics,Depaul University,Chicago,USA;3.Department of Mathematics and Statistics,Wright State University,Dayton,USA |
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Abstract: | Ergodic homeomorphisms T and S of Polish probability spaces X and Y are evenly Kakutani equivalent if there is an orbit equivalence ?: X 0 → Y 0 between full measure subsets of X and Y such that, for some A ? X 0 of positive measure, ? restricts to a measurable isomorphism of the induced systems T A and S ?(A). The study of even Kakutani equivalence dates back to the seventies, and it is well known that any two zero-entropy loosely Bernoulli systems are evenly Kakutani equivalent. But even Kakutani equivalence is a purely measurable relation, while systems such as the Morse minimal system are both measurable and topological.Recently del Junco, Rudolph and Weiss studied a new relation, called nearly continuous Kakutani equivalence. A nearly continuous Kakutani equivalence is an even Kakutani equivalence where also X 0 and Y 0 are invariant G δ sets, A is within measure zero of both open and closed, and ? is a homeomorphism from X 0 to Y 0. It is known that nearly continuous Kakutani equivalence is strictly stronger than even Kakutani equivalence, and nearly continuous Kakutani equivalence is the natural strengthening of even Kakutani equivalence to the nearly continuous category—the category of maps that are continuous after sets of measure zero are removed. In this paper, we show that the Morse minimal substitution system is nearly continuously Kakutani equivalent to the binary odometer. |
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