Injectivity of the specialization homomorphism of elliptic curves (1409.7189v2)

Abstract: Let $E:y^2=x^3+Ax^2+Bx+C$ be a nonconstant elliptic curve over $\mathbb{Q}(t)$ with at least one nontrivial $\mathbb{Q}(t)$-rational $2$-torsion point. We describe a method for finding $t_0\in\mathbb Q$ for which the corresponding specialization homomorphism $t\mapsto t_0\in\mathbb{Q}$ is injective. The method can be directly extended to elliptic curves over $K(t)$ for a number field $K$ of class number $1$, and in principal for arbitrary number field $K$. One can use this method to calculate the rank of elliptic curves over $\mathbb Q(t)$ of the form as above, and to prove that given points are free generators. In this paper we illustrate it on some elliptic curves over $\mathbb Q(t)$ from an article by Mestre.