Local-global principles for multinorm tori over semi-global fields

Abstract

Let K be a complete discretely valued field with the residue field . Assume that cohomological dimension of is less than or equal to 1 (for example, is an algebraically closed field or a finite field). Let F be the function field of a curve over K. Let n be a squarefree positive integer not divisible by char(). Then for any two degree n abelian extensions, we prove that the local-global principle holds for the associated multinorm torus with respect to discrete valuations. Let X be a regular proper model of F such that the reduced special fibre X is a union of regular curves with normal crossings. Suppose that is algebraically closed with char()≠ 2. If the graph associated to X is a tree (e.g. F = K(t)) then we show that the same local-global principle holds for the multinorm torus associated to finitely many abelian extensions where one of the extensions is quadratic and others are of degree not divisible by 4.