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Word problems and ceers
Mathematical Logic Quarterly 66 (3):341-354 (2020)
Abstract
This note addresses the issue as to which ceers can be realized by word problems of computably enumerable (or, simply, c.e.) structures (such as c.e. semigroups, groups, and rings), where being realized means to fall in the same reducibility degree (under the notion of reducibility for equivalence relations usually called “computable reducibility”), or in the same isomorphism type (with the isomorphism induced by a computable function), or in the same strong isomorphism type (with the isomorphism induced by a computable permutation of the natural numbers). We observe, e.g., that every ceer is isomorphic to the word problem of some c.e. semigroup, but (answering a question of Gao and Gerdes) not every ceer is in the same reducibility degree of the word problem of some finitely presented semigroup, nor is it in the same reducibility degree of some non‐periodic semigroup. We also show that the ceer provided by provable equivalence of Peano Arithmetic is in the same strong isomorphism type as the word problem of some non‐commutative and non‐Boolean c.e. ring.Author's Profile
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Citations of this work
Investigating the Computable Friedman–Stanley Jump.Uri Andrews & Luca San Mauro - forthcoming - Journal of Symbolic Logic:1-27.
References found in this work
Universal computably enumerable equivalence relations.Uri Andrews, Steffen Lempp, Joseph S. Miller, Keng Meng Ng, Luca San Mauro & Andrea Sorbi - 2014 - Journal of Symbolic Logic 79 (1):60-88.
Classifying positive equivalence relations.Claudio Bernardi & Andrea Sorbi - 1983 - Journal of Symbolic Logic 48 (3):529-538.
On isomorphism classes of computably enumerable equivalence relations.Uri Andrews & Serikzhan A. Badaev - 2020 - Journal of Symbolic Logic 85 (1):61-86.
Computably enumerable equivalence relations.Su Gao & Peter Gerdes - 2001 - Studia Logica 67 (1):27-59.
Relatively precomplete numerations and arithmetic.Franco Montagna - 1982 - Journal of Philosophical Logic 11 (4):419 - 430.
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