Search results for "Deligne cohomology"

showing 4 items of 4 documents

The Abel–Jacobi map for higher Chow groups

2006

We construct a map between Bloch's higher Chow groups and Deligne homology for smooth, complex quasiprojective varieties on the level of complexes. For complex projective varieties this results in a formula which generalizes at the same time the classical Griffiths Abel–Jacobi map and the Borel/Beilinson/Goncharov regulator type maps.

AlgebraDeligne cohomologyPure mathematicsMathematics::Algebraic GeometryAlgebra and Number TheoryMathematics::K-Theory and HomologyHomology (mathematics)Chow ringMathematicsCompositio Mathematica
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Functional equations of the dilogarithm in motivic cohomology

2009

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.

Pure mathematicsAlgebra and Number TheoryMathematics - Number Theory11G55CodimensionAlgebraic number field11F42Chow ringMotivic cohomologyAlgebraDeligne cohomologyMathematics - Algebraic GeometryMathematics::Algebraic GeometryMathematics::K-Theory and HomologyTorsion (algebra)FOS: MathematicsEquivariant cohomology11R70Number Theory (math.NT)11S7011G55; 11R70; 11S70; 11F42Algebraic Geometry (math.AG)Mathematics
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Hodge Theory and Algebraic Cycles

2006

Algebraic cycles and Hodge theory, in particular Chow groups, Deligne cohomology and the study of cycle class maps were some of the themes of the Schwerpunkt ”Globale Methoden in der Komplexen Geometrie”. In this survey we report about several projects around the structure of (higher) Chow groups CH(X,n) [3] which the author has studied with his coauthors during this time by using different methods. In my opinion there are two interesting view points: first the internal structure of higher Chow groups, i.e., the existence of interesting elements and nontriviality of parts of their Bloch-Beilinson filtrations. This case has arithmetic and geometric features, and the groups in question show d…

Pure mathematicsIntersection theorymedicine.medical_specialtyHodge theoryAlgebraic cycleHodge conjectureDeligne cohomologyMathematics::Algebraic GeometryMathematics::K-Theory and HomologyAlgebraic surfacemedicineProjective varietyHodge structureMathematics
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Applications to Algebraic Cycles: Nori's Theorem

2017

Deligne cohomology is a tool that makes it possible to unify the study of cycles through an object that classifies extensions of ( p , p )-cycles by points in the p -th intermediate Jacobian (which is the target of the Abel–Jacobi map on cycles of codimension p ). This is treated in Section 10.1 with applications to normal functions. Before giving the proof of Nori's theorem in Section 10.6, we need some results from mixed Hodge theory. These are proven in Section 10.2 where we also state different variants of the theorem. Sections 10.3 and 10.4 treat a localto- global principle and an extension of the method of Jacobian representations of cohomology which are both essential for the proof. …

Section (fiber bundle)Algebraic cycleDiscrete mathematicsDeligne cohomologyPure mathematicsMathematics::Algebraic GeometryIntermediate JacobianMathematics::K-Theory and HomologyGroup (mathematics)Hodge theorySheafCohomologyMathematics
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