Kazim Büyükboduk
Published 2014-05-12, updated 2015-01-07Version 2
Let $E/\mathbb{Q}$ be an elliptic curve which has split multiplicative reduction at a prime $p$ and whose analytic rank $r_{an}(E)$ equals one. The main goal of this article is to relate the second order derivative of the Mazur-Tate-Teitelbaum $p$-adic $L$-function $L_p(E,s)$ of $E$ to Nekov\'{a}\v{r}'s height pairing evaluated on natural elements arising from the Beilinson-Kato elements. Along the way, we extend a Rubin-style formula of Nekov\'a\v{r} (or in an alternative wording, correct another Rubin-style formula of his) to apply in the presence of exceptional zeros. Our height formula allows us, among other things, to compare the order of vanishing of $L_p(E,s)$ at $s=1$ to its (complex) analytic rank $r_{an}(E)$ assuming the non-triviality of the height pairing. This has consequences towards a conjecture of Mazur, Tate and Teitelbaum.
Comments: 31 pages, submitted. Major revision and reorganization. Most notably, we have added an appendix where we give a proof of a Rubin-style formula alluded to in the Abstract
The Birch and Swinnerton-Dyer Formula for Elliptic Curves of Analytic Rank One
Visibility and the Birch and Swinnerton-Dyer conjecture for analytic rank one
Moments of the rank of elliptic curves
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