DOI: 10.1017/s147474802610173x ISSN: 1474-7480
THE MOTIVIC FUNDAMENTAL GROUPOID AT TANGENTIAL BASEPOINTS
Sofian Tur-Dorvault Abstract
We give a general construction of the motivic path space based at tangential basepoints, extending previous works of P. Deligne, A. B. Goncharov and M. Levine, which were limited to ordinary basepoints or to specific varieties. Given a smooth variety over a field endowed with a simple normal crossings divisor, we encode its tangential basepoints using the language of logarithmic geometry. Building on the recent construction by F. Binda, D. Park and P. A. Østvær of a stable
∞
$\infty $
infinity
-category of
A
1
$\mathbb {A}^1$
double struck upper A Superscript 1
-invariant logarithmic motives and its comparison with the usual category of motives, we define in a functorial manner the associated motivic pointed path spaces. In the presence of a motivic
t
-structure, truncating yields the motivic fundamental groupoid. In general, we construct Betti and de Rham realization functors for logarithmic motives (linearizing the construction of F. Binda, D. Park and P. A. Østvær for the Betti case) and we show that the periods of the motivic fundamental groupoid are given by regularized iterated integration of logarithmic differential
1
$1$
1
-forms, thus yielding a general version of Chen’s theorem with tangential basepoints.