We establish several first- or second-order properties of models of first-order theories by considering their elements as atoms of a new universe of set theory and by extending naturally any structure of Boolean model on the atoms to the whole universe. For example, complete $f$-rings are "boundedly algebraically compact" in the language $(+,-,\cdot,\wedge,\vee,\leq)$, and the positive cone of a complete $l$-group with infinity adjoined is algebraically compact in the language $(+, \vee, \leq)$. We also give an example with any first-order language. The proofs can be translated into "naive set theory" in a uniform way.

Publié le : 1993-12-14
Classification:  Atoms,  Boolean models,  first-order languages,  convergence in lattice-ordered rings,  equational compactness,  algebraic compactness,  03C90,  08a45,  06F05,  06f20,  54H99

@article{1183744372,
     author = {Wehrung, Friedrich},
     title = {Boolean Universes above Boolean Models},
     journal = {J. Symbolic Logic},
     volume = {58},
     number = {1},
     year = {1993},
     pages = { 1219-1250},
     language = {en},
     url = {http://dml.mathdoc.fr/item/1183744372}
}

Wehrung, Friedrich. Boolean Universes above Boolean Models. J. Symbolic Logic, Tome 58 (1993) no. 1, pp.  1219-1250. http://gdmltest.u-ga.fr/item/1183744372/