Grunwald- Wang Theorem, an Effective Version

Abstract

The main purpose of this note is to establish an effective version of the Grunwald--Wang Theorem, which asserts that given a family of local characters v of Kv* of exponent m where v ∈ S for a finite set S of primes of K, there exists a global character of the idele class group CK of exponent m (unless some special case occurs, when it is 2 m) whose component at v is v. The effectiveness problem for this theorem is to bound the norm N () of the conductor of in terms of K, m, S and N (v). The Kummer case (when K contains μm) is easy since it is almost an application of the Chinese Remainder Theorem. In this note, we solve this problem completely in general case, and give three versions of bound, one is with , and the other two are unconditional bounds. These effective results have some interesting applications in concrete situations. To give a simple example, if we fix p and l, one gets a good least upper bound for N such that p is not an l--th power mod N. One also gets the least upper bound for N such that lr φ (N) and p is not an l--th power mod N. Some part of this note is adopted (with some revision) from my unpublished thesis (2001) (Wang2001).