Some results from algebraic geometry over complete discretely valued fields

Abstract

This paper is concerned with algebraic geometry over complete discretely valued fields K of equicharacteristic zero. Several results are given including: the canonical projection Kn × KPm Kn and blow-ups of the K-points of smooth K-varieties are definably closed maps, a descent principle, a version of the Lojasiewicz inequality for continuous rational functions, curve selection for semialgebraic sets and the theorem on extending continuous hereditarily rational functions, established for the real field in our joint paper with J. Kollar. Our approach applies the quantifier elimination due to Pas. By the transfer principle of Ax-Kochen-Ershov, all these results carry over to the case of Henselian discretely valued fields. Using different arguments in our subsequent paper, we establish them over Henselian real valued fields of equicharacteristic zero.