On reduction map for étale $K$-theory of curves

Abstract: In this paper we investigate reduction of nontorsion elements in theétale K-theory of a curve X over a global field F. We show that the reduction map can be well understood in terms of Galois cohomology of l-adic representations.Dedicated to Victor Snaith on the occasion of his 60-th birthday. IntroductionAssume that X is a smooth, proper and geometrically irreducible curve of genus g, defined over a global field F. Let l be an odd rational prime different from the characteristic of the field F. In the functio… Show more

“…The proof follows the lines of step 1 of the proof of Proposition 2.2 in [BGK4] that partly repeats the argument in the proof of Lemma 5 in [KP]. Consider the following commutative diagram:…”

On reduction maps and support problem in K-theory and abelian varieties

“…The proof follows the lines of step 1 of the proof of Proposition 2.2 in [BGK4] that partly repeats the argument in the proof of Lemma 5 in [KP]. Consider the following commutative diagram:…”

On reduction maps and support problem in K-theory and abelian varieties

“…501-502, [9] Theorem C.1.4 p. 263. The following lemma is a result of S. Barańczuk which is a refinement of Theorem 3.1 of [2] and Proposition 2.2 of [3]. This is also a result of R. Pink [ [14], Cor.…”

On a Hasse principle for Mordell–Weil groups

“…In [2], [3], considering the more general situation of any free Z l -module of finite rank T l ; we made the following (cf. [2], Proposition 1.1):…”

“…Definition 1. 2 We call a finite field extension F 0 =F an isogeny splitting field of the Jacobian J if J is isogenous over F 0 to the product A e 1 1 A e t t where A 1 ;:::;A t are pairwise nonisogenous, absolutely simple abelian varieties defined over F 0 . Let Q V l;i denote T l .A i /.n/˝Z l Q l , where T l .A i /.n/ is the n-th twist of the l-adic Tate module of A i (cf.…”

On a local to global principle in étale K-groups of curves