On fine Mordell-Weil groups over Zp-extensions of an imaginary quadratic field

Abstract

Let E be an elliptic curve over Q. Greenberg has posed a question whether the structure of the fine Selmer group over the cyclotomic Zp-extension of Q can be described by cyclotomic polynomials in a certain precise manner. A recent work of Lei has made progress on this problem by proving that the fine Mordell-Weil group (in the sense of Wuthrich) does have this required property. The goal of this paper is study the analogous question of Greenberg over various Zp-extensions of an imaginary quadratic field F. In particular, when the elliptic curve has complex multiplication by the ring of integers of the imaginary quadratic field, we obtain analogous results of Lei over the cyclotomic Zp-extension and anti-cyclotomic Zp-extension of F. In the event that the elliptic curve has good ordinary reduction at the prime p, we further obtain a result over the Zp-extension of F unramified outside precisely one of the prime of F above p. Finally, we study the situation of an elliptic curve over the anticyclotomic Zp-extension under the generalized Heegner hypothesis. Along the way, we establish an analogous result for the BDP-Selmer group. This latter result is then applied to obtain a relation between the BDP p-adic L-function and the Mordell-Weil rank growth in the anticyclotomic Zp-extension which may be of independent interest.