Jan Tuitman scite author profile

We extend the explicit quadratic Chabauty methods developed in previous work by the first two authors to the case of non-hyperelliptic curves. This results in an algorithm to compute the rational points on a curve of genus g ≥ 2 over the rationals whose Jacobian has Mordell-Weil rank g and Picard number greater than one, and which satisfies some additional conditions. This algorithm is then applied to the modular curve Xs(13), completing the classification of non-CM elliptic curves over Q with split Cartan level structure due to Bilu-Parent and Bilu-Parent-Rebolledo.

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Counting points on curves using a map to $\mathbf {P}^1$

Tuitman

2015

Math. Comp.

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Counting points on curves using a map to P1, II

Tuitman

2017

Finite Fields and Their Applications

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Improvements to the Deformation Method for Counting Points on Smooth Projective Hypersurfaces

Pancratz

Tuitman

2015

Found Comput Math

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We present various improvements to the deformation method for computing the zeta function of smooth projective hypersurfaces over finite fields using p-adic cohomology. This includes new bounds for the p-adic and t-adic precisions required to obtain provably correct results and gains in the efficiency of the individual steps of the method. The algorithm that we thus obtain has lower time and space complexities than existing methods. Moreover, our implementation is more practical and can be applied more generally, which we illustrate with examples of generic quintic curves and quartic surfaces.

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Explicit Coleman integration for curves

Balakrishnan

Tuitman

2020

Math. Comp.

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Jan Tuitman

Explicit Chabauty–Kim for the split Cartan modular curve of level 13

Counting points on curves using a map to $\mathbf {P}^1$

Counting points on curves using a map to P1, II

Improvements to the Deformation Method for Counting Points on Smooth Projective Hypersurfaces

Explicit Coleman integration for curves

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