Algebraic Cycles, Fundamental Group of a Punctured Curve, and Applications in Arithmetic

Abstract

The results of this paper can be divided into two parts, geometric and arithmetic. Let X be a smooth projective curve over C, and e,∞∈ X(C) be distinct points. Let Ln be the mixed Hodge structure of functions on π1(X-\∞\,e) given by iterated integrals of length ≤ n (as defined by Hain). In the geometric part, inspired by a work of Darmon, Rotger, and Sols, we express the mixed Hodge extension E∞n,e given by the weight filtration on LnLn-2 in terms of certain null-homologous algebraic cycles on X2n-1. As a corollary, we show that the extension E∞n,e determines the point ∞∈ X-\e\. The arithmetic part of the paper gives some number-theoretic applications of the geometric part. We assume that X=X0KC and e,∞∈ X0(K), where K is a subfield of C and X0 is a projective curve over K. Let Jac be the Jacobian of X0. We use the extension E∞n,e to associate to each Z∈ CHn-1(X02n-2) a point PZ∈ Jac(K), which can be described analytically in terms of iterated integrals. The proof of K-rationality of PZ uses that the algebraic cycles constructed in the geometric part of the paper are defined over K. Assuming a certain plausible hypothesis on the Hodge filtration on Ln(X-\∞\,e) holds, we show that an algebraic cycle Z for which PZ is torsion, gives rise to relations between periods of L2(X-\∞\,e). Interestingly, these relations are non-trivial even when one takes Z to be the diagonal of X0. The geometric result of the paper in n=2 case, and the fact that one can associate to E∞2,e a family of points in Jac(K), are due to Darmon, Rotger, and Sols. Our contribution is in generalizing the picture to higher weights.