Translator Disclaimer
May 2009 On the Geometry of Chains
Andreas Čap, Vojtěch Žádník
J. Differential Geom. 82(1): 1-33 (May 2009). DOI: 10.4310/jdg/1242134367


The chains studied in this paper generalize Chern–Moser chains for CR structures. They form a distinguished family of one dimensional submanifolds in manifolds endowed with a parabolic contact structure. Both the parabolic contact structure and the system of chains can be equivalently encoded as Cartan geometries (of different types). The aim of this paper is to study the relation between these two Cartan geometries for Lagrangean contact structures and partially integrable almost CR structures.

We develop a general method for extending Cartan geometries which generalizes the Cartan geometry interpretation of Fefferman’s construction of a conformal structure associated to a CR structure. For the two structures in question, we show that the Cartan geometry associated to the family of chains can be obtained in that way if and only if the original parabolic contact structure is torsion free. In particular, the procedure works exactly on the subclass of (integrable) CR structures.

This tight relation between the two Cartan geometries leads to an explicit description of the Cartan curvature associated to the family of chains. On the one hand, this shows that the homogeneous models for the two parabolic contact structures give rise to examples of non–flat path geometries with large automorphism groups. On the other hand, we show that one may (almost) reconstruct the underlying torsion free parabolic contact structure from the Cartan curvature associated to the chains. In particular, this leads to a very conceptual proof of the fact that chain preserving contact diffeomorphisms are either isomorphisms or anti– isomorphisms of parabolic contact structures.


Download Citation

Andreas Čap. Vojtěch Žádník. "On the Geometry of Chains." J. Differential Geom. 82 (1) 1 - 33, May 2009.


Published: May 2009
First available in Project Euclid: 12 May 2009

zbMATH: 1167.32020
MathSciNet: MR2504769
Digital Object Identifier: 10.4310/jdg/1242134367

Rights: Copyright © 2009 Lehigh University


Vol.82 • No. 1 • May 2009
Back to Top