Oliver Petras
Published 2007-12-24, updated 2009-09-01Version 4
We prove relations between fractional linear cycles in Bloch's integral cubical higher Chow complex in codimension two of number fields, which correspond to functional equations of the dilogarithm. These relations suffice, as we shall demonstrate with a few examples, to write down enough relations in Bloch's integral higher Chow group CH^2(F,3) for certain number fields F to detect torsion cycles. Using the regulator map to Deligne cohomology, one can check the non-triviality of the torsion cycles thus obtained. Using this combination of methods, we obtain explicit higher Chow cycles generating the integral motivic cohomology groups of some number fields.
Comments: 21 pages, no figures; accepted for publication in the Journal of Number Theory
Journal: Journal of Number Theory 129 (2009) pp. 2346-2368
Stable sets of primes in number fields
Functional Equations of $L$-Functions for Symmetric Products of the Kloosterman Sheaf
Eisenstein cocycles in motivic cohomology
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