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A Hierarchy of Tree-Automatic Structures

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 Added by Olivier Finkel
 Publication date 2011
and research's language is English




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We consider $omega^n$-automatic structures which are relational structures whose domain and relations are accepted by automata reading ordinal words of length $omega^n$ for some integer $ngeq 1$. We show that all these structures are $omega$-tree-automatic structures presentable by Muller or Rabin tree automata. We prove that the isomorphism relation for $omega^2$-automatic (resp. $omega^n$-automatic for $n>2$) boolean algebras (respectively, partial orders, rings, commutative rings, non commutative rings, non commutative groups) is not determined by the axiomatic system ZFC. We infer from the proof of the above result that the isomorphism problem for $omega^n$-automatic boolean algebras, $n > 1$, (respectively, rings, commutative rings, non commutative rings, non commutative groups) is neither a $Sigma_2^1$-set nor a $Pi_2^1$-set. We obtain that there exist infinitely many $omega^n$-automatic, hence also $omega$-tree-automatic, atomless boolean algebras $B_n$, $ngeq 1$, which are pairwise isomorphic under the continuum hypothesis CH and pairwise non isomorphic under an alternate axiom AT, strengthening a result of [FT10].



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167 - Olivier Finkel 2010
An $omega$-tree-automatic structure is a relational structure whose domain and relations are accepted by Muller or Rabin tree automata. We investigate in this paper the isomorphism problem for $omega$-tree-automatic structures. We prove first that the isomorphism relation for $omega$-tree-automatic boolean algebras (respectively, partial orders, rings, commutative rings, non commutative rings, non commutative groups, nilpotent groups of class n >1) is not determined by the axiomatic system ZFC. Then we prove that the isomorphism problem for $omega$-tree-automatic boolean algebras (respectively, partial orders, rings, commutative rings, non commutative rings, non commutative groups, nilpotent groups of class n >1) is neither a $Sigma_2^1$-set nor a $Pi_2^1$-set.
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