Algebraic characterisation of pseudo-elementary and second-order classes

Abstract

In this paper we provide purely model-theoretic (algebraic) characterisations for classes definable in second-order logic and for pseudo-elementary classes (including PC and PC classes). Classical results of this flavour include Keisler-Shelah type theorems (characterising first-order definability by closure under ultraproducts and ultraroots) and Birkhoff's HSP theorem; a key starting point for this paper is S\'agi's work, which provides an algebraic description of classes definable by existential second-order sentences. Here we resolve several open problems from the literature. Our main results are the following. We solve the long-standing problem of giving a purely algebraic characterisation of pseudo-elementary classes: we characterise PC classes by intrinsic closure properties. We also give a characterisation for the basic pseudo-elementary classes (PC). We provide a structural classification of second-order equivalent structures, and we obtain purely algebraic characterisations of the classes definable by second-order formulas as well as those definable by finitely many second-order sentences.