Emergent order spectrum for transitive homeomorphisms

Abstract

The Emergent Order Spectrum (x,y) is a topological invariant of dynamical systems providing order-types induced by the limit order of order-compatible nested n-chains (with n 0) from x to y. In this paper, we investigate how rich these spectra can be under natural dynamical hypotheses. For a transitive homeomorphism f of a compact metric space X without isolated points and of cardinality c, we show that the global spectrum f(X2) is universal at the countable scattered level: every countable scattered order-type together with the order-type of the rationals appears in f(X2). More precisely, there exists a comeagre subset M⊂eq X2 such that, for every (x,y)∈ M, the individual spectrum f(x,y) already realizes all countably infinite scattered order-types; moreover, the order-type of the rationals belongs to f(x,y) for every pair (x,y)∈ X2.