Bogomolov conjecture

In mathematics, the Bogomolov conjecture, named for Fedor Bogomolov, is the following statement:

Let C be an algebraic curve of genus g at least two defined over a number field K, let $\overline K$ denote the algebraic closure of K, fix an embedding of C into its Jacobian variety J, and let ${\hat h}$ denote the Néron-Tate height on J associated to an ample symmetric divisor. Then there exists an $\epsilon >0$ such that the set

\{P\in C(\overline {K}):{\hat {h}}(P)<\epsilon \}

is finite.

Since ${\hat h}(P)=0$ if and only if P is a torsion point, the Bogomolov conjecture generalises the Manin-Mumford conjecture. The original Bogomolov conjecture was proved by Emmanuel Ullmo and Shou-Wu Zhang in 1998.^[1] Zhang^[2] proved the following generalization:

Let A be an abelian variety defined over K, and let ${\hat h}$ be the Néron-Tate height on A associated to an ample symmetric divisor. A subvariety $X\subset A$ is called a torsion subvariety if it is the translate of an abelian subvariety of A by a torsion point. If X is not a torsion subvariety, then there is an $\epsilon >0$ such that the set

\{P\in X(\overline {K}):{\hat {h}}(P)<\epsilon \}

is not Zariski dense in X.

References

↑ Ullmo, E. (1998), "Positivité et Discrétion des Points Algébriques des Courbes", Annals of Mathematics, 147 (1): 167–179, doi:10.2307/120987, Zbl 0934.14013 .
↑ Zhang, S.-W. (1998), "Equidistribution of small points on abelian varieties", Annals of Mathematics, 147 (1): 159–165, doi:10.2307/120986

Chambert-Loir, Antoine (2013). "Diophantine geometry and analytic spaces". In Amini, Omid; Baker, Matthew; Faber, Xander. Tropical and non-Archimedean geometry. Bellairs workshop in number theory, tropical and non-Archimedean geometry, Bellairs Research Institute, Holetown, Barbados, USA, May 6–13, 2011. Contemporary Mathematics. 605. Providence, RI: American Mathematical Society. pp. 161–179. ISBN 978-1-4704-1021-6. Zbl 1281.14002.

Bogomolov conjecture

References

Further reading