The existence of a minimal model cannot be proved in ZFC, even assuming that ZFC is consistent, but follows from the existence of a standard model as follows. If there is a setW in the von Neumann universe V that is a standard model of ZF, and the ordinalκ is the set of ordinals that occur in W, then Lκ is the class of constructible sets of W. If there is a set that is a standard model of ZF, then the smallest such set is such a Lκ. This set is called the minimal model of ZFC, and also satisfies the axiom of constructibility V=L. The downward Löwenheim–Skolem theorem implies that the minimal model (if it exists as a set) is a countable set. More precisely, every element s of the minimal model can be named; in other words there is a first-order sentence φ(x) such that s is the unique element of the minimal model for which φ(s) is true.
Cohen (1963) gave another construction of the minimal model as the strongly constructible sets, using a modified form of Gödel's constructible universe.
Of course, any consistent theory must have a model, so even within the minimal model of set theory there are sets that are models of ZFC (assuming ZFC is consistent). However, these set models are non-standard. In particular, they do not use the normal membership relation and they are not well-founded.
If there is no standard model then the minimal model cannot exist as a set. However in this case the class of all constructible sets plays the same role as the minimal model and has similar properties (though it is now a proper class rather than a countable set).
The minimal model of set theory has no inner models other than itself. In particular it is not possible to use the method of inner models to prove that any given statement true in the minimal model (such as the continuum hypothesis) is not provable in ZFC.
Shepherdson, J. C. (1952), "Inner models for set theory. II", The Journal of Symbolic Logic, 17 (4), Association for Symbolic Logic: 225–237, doi:10.2307/2266609, JSTOR 2266609, MR 0053885
Shepherdson, J. C. (1953), "Inner models for set theory. III", The Journal of Symbolic Logic, 18 (2), Association for Symbolic Logic: 145–167, doi:10.2307/2268947, JSTOR 2268947, MR 0057828
April 11, 2024
minimal, model, theory, theory, branch, mathematics, minimal, model, minimal, standard, model, minimal, model, introduced, shepherdson, 1951, 1952, 1953, rediscovered, cohen, 1963, existence, minimal, model, cannot, proved, even, assuming, that, consistent, fo. In set theory a branch of mathematics the minimal model is the minimal standard model of ZFC The minimal model was introduced by Shepherdson 1951 1952 1953 and rediscovered by Cohen 1963 The existence of a minimal model cannot be proved in ZFC even assuming that ZFC is consistent but follows from the existence of a standard model as follows If there is a set W in the von Neumann universe V that is a standard model of ZF and the ordinal k is the set of ordinals that occur in W then Lk is the class of constructible sets of W If there is a set that is a standard model of ZF then the smallest such set is such a Lk This set is called the minimal model of ZFC and also satisfies the axiom of constructibility V L The downward Lowenheim Skolem theorem implies that the minimal model if it exists as a set is a countable set More precisely every element s of the minimal model can be named in other words there is a first order sentence f x such that s is the unique element of the minimal model for which f s is true Cohen 1963 gave another construction of the minimal model as the strongly constructible sets using a modified form of Godel s constructible universe Of course any consistent theory must have a model so even within the minimal model of set theory there are sets that are models of ZFC assuming ZFC is consistent However these set models are non standard In particular they do not use the normal membership relation and they are not well founded If there is no standard model then the minimal model cannot exist as a set However in this case the class of all constructible sets plays the same role as the minimal model and has similar properties though it is now a proper class rather than a countable set The minimal model of set theory has no inner models other than itself In particular it is not possible to use the method of inner models to prove that any given statement true in the minimal model such as the continuum hypothesis is not provable in ZFC References editCohen Paul J 1963 A minimal model for set theory Bull Amer Math Soc 69 537 540 doi 10 1090 S0002 9904 1963 10989 1 MR 0150036 Shepherdson J C 1951 Inner models for set theory I PDF The Journal of Symbolic Logic 16 3 Association for Symbolic Logic 161 190 doi 10 2307 2266389 JSTOR 2266389 MR 0045073 Shepherdson J C 1952 Inner models for set theory II The Journal of Symbolic Logic 17 4 Association for Symbolic Logic 225 237 doi 10 2307 2266609 JSTOR 2266609 MR 0053885 Shepherdson J C 1953 Inner models for set theory III The Journal of Symbolic Logic 18 2 Association for Symbolic Logic 145 167 doi 10 2307 2268947 JSTOR 2268947 MR 0057828 Retrieved from https en wikipedia org w index php title Minimal model set theory amp oldid 1151442246, wikipedia, wiki, book, books, library,
