Comptes Rendus. Mathématique (Dec 2022)

Bounded Generation by semi-simple elements: quantitative results

  • Corvaja, Pietro,
  • Demeio, Julian L.,
  • Rapinchuk, Andrei S.,
  • Ren, Jinbo,
  • Zannier, Umberto M.

DOI
https://doi.org/10.5802/crmath.376
Journal volume & issue
Vol. 360, no. G11
pp. 1249 – 1255

Abstract

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We prove that for a number field $F$, the distribution of the points of a set $\Sigma \subset \mathbb{A}_F^n$ with a purely exponential parametrization, for example a set of matrices boundedly generated by semi-simple (diagonalizable) elements, is of at most logarithmic size when ordered by height. As a consequence, one obtains that a linear group $\Gamma \subset \mathrm{GL}_n(K)$ over a field $K$ of characteristic zero admits a purely exponential parametrization if and only if it is finitely generated and the connected component of its Zariski closure is a torus. Our results are obtained via a key inequality about the heights of minimal $m$-tuples for purely exponential parametrizations. One main ingredient of our proof is Evertse’s strengthening of the $S$-Unit Equation Theorem.