In mathematics, Deligne cohomology sometimes called Deligne-Beilinson cohomology is the hypercohomology of the Deligne complex of a complex manifold. It was introduced by Pierre Deligne in unpublished work in about 1972 as a cohomology theory for algebraic varieties that includes both ordinary cohomology and intermediate Jacobians.
For introductory accounts of Deligne cohomology see Brylinski (2008, section 1.5), Esnault & Viehweg (1988), and Gomi (2009, section 2).
Definition
The analytic Deligne complex Z(p)D, an on a complex analytic manifold X is
where Z(p) = (2π i)pZ. Depending on the context, is either the complex of smooth (i.e., C∞) differential forms or of holomorphic forms, respectively.
The Deligne cohomology H q
D,an (X,Z(p)) is the q-th hypercohomology of the Deligne complex. An alternative definition of this complex is given as the homotopy limit[1] of the diagram
Properties
Deligne cohomology groups H q
D (X,Z(p)) can be described geometrically, especially in low degrees. For p = 0, it agrees with the q-th singular cohomology group (with Z-coefficients), by definition. For q = 2 and p = 1, it is isomorphic to the group of isomorphism classes of smooth (or holomorphic, depending on the context) principal C×-bundles over X. For p = q = 2, it is the group of isomorphism classes of C×-bundles with connection. For q = 3 and p = 2 or 3, descriptions in terms of gerbes are available (Brylinski (2008)). This has been generalized to a description in higher degrees in terms of iterated classifying spaces and connections on them (Gajer (1997)).
Relation with Hodge classes
Recall there is a subgroup of integral cohomology classes in called the group of Hodge classes. There is an exact sequence relating Deligne-cohomology, their intermediate Jacobians, and this group of Hodge classes as a short exact sequence
Applications
Deligne cohomology is used to formulate Beilinson conjectures on special values of L-functions.
Extensions
There is an extension of Deligne-cohomology defined for any symmetric spectrum [1] where for odd which can be compared with ordinary Deligne cohomology on complex analytic varieties.
See also
References
- "Deligne-Beilinson cohomology" (PDF). Archived from the original (PDF) on 2020-06-03.
- Geometry of Deligne cohomology
- Notes on differential cohomology and gerbes
- Twisted smooth Deligne cohomology
- Bloch's Conjecture, Deligne Cohomology and Higher Chow Groups
- Brylinski, Jean-Luc (2008) [1993], Loop spaces, characteristic classes and geometric quantization, Modern Birkhäuser Classics, Boston, MA: Birkhäuser Boston, doi:10.1007/978-0-8176-4731-5, ISBN 978-0-8176-4730-8, MR 2362847
- Esnault, Hélène; Viehweg, Eckart (1988), "Deligne-Beĭlinson cohomology" (PDF), Beĭlinson's conjectures on special values of L-functions, Perspect. Math., vol. 4, Boston, MA: Academic Press, pp. 43–91, ISBN 978-0-12-581120-0, MR 0944991
- Gajer, Pawel (1997), "Geometry of Deligne cohomology", Inventiones Mathematicae, 127 (1): 155–207, arXiv:alg-geom/9601025, Bibcode:1996InMat.127..155G, doi:10.1007/s002220050118, ISSN 0020-9910, S2CID 18446635
- Gomi, Kiyonori (2009), "Projective unitary representations of smooth Deligne cohomology groups", Journal of Geometry and Physics, 59 (9): 1339–1356, arXiv:math/0510187, Bibcode:2009JGP....59.1339G, doi:10.1016/j.geomphys.2009.06.012, ISSN 0393-0440, MR 2541824, S2CID 17437631