Abstract

Working over a field k of characteristic zero, this paper studies algebraic actions of SL2(k) on affine k-domains by defining and investigating fundamental pairs of derivations. There are three main results: (1) The Structure Theorem for Fundamental Derivations (Theorem 3.4) describes the kernel of a fundamental derivation, together with its degree modules and image ideals. (2) The Classification Theorem (Theorem 4.5) lists all normal affine SL2(k)-surfaces with trivial units, generalizing the classification given by Gizatullin and Popov for complex \(SL_{2}(\mathbb {C})\)-surfaces. (3) The Extension Theorem (Theorem 7.6) describes the extension of a fundamental derivation of a k-domain B to B[t] by an invariant function. The Classification Theorem is used to describe three-dimensional UFDs which admit a certain kind of SL2(k) action (Theorem 6.2). This description is used to show that any SL2(k)-action on \({\mathbb {A}}_{k}^{3}\) is linearizable, which was proved by Kraft and Popov in the case k is algebraically closed. This description is also used, together with Panyushev’s theorem on linearization of SL2(k)-actions on \({\mathbb {A}}_{k}^{4}\), to show a cancelation property for threefolds X: If k is algebraically closed, \(X \times {\mathbb {A}}_{k}^{1} \cong {\mathbb {A}}_{k}^{4}\) and X admits a nontrivial action of SL2(k), then \(X \cong {\mathbb {A}}_{k}^{3}\) (Theorem 6.6). The Extension Theorem is used to investigate free \(\mathbb {G}_{a}\)-actions on \({\mathbb {A}}_{k}^{n}\) of the type first constructed by Winkelmann.

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