English

Generating families and augmentations for Legendrian surfaces

Symplectic Geometry 2018-04-11 v2

Abstract

We study augmentations of a Legendrian surface LL in the 11-jet space, J1MJ^1M, of a surface MM. We introduce two types of algebraic/combinatorial structures related to the front projection of LL that we call chain homotopy diagrams (CHDs) and Morse complex 22-families (MC2Fs), and show that the existence of either a ρ\rho-graded CHD or MC2F is equivalent to the existence of a ρ\rho-graded augmentation of the Legendrian contact homology DGA to Z/2\mathbb{Z}/2. A CHD is an assignment of chain complexes, chain maps, and homotopy operators to the 00-, 11-, and 22-cells of a compatible polygonal decomposition of the base projection of LL with restrictions arising from the front projection of LL. An MC2F consists of a collection of formal handleslide sets and chain complexes, subject to axioms based on the behavior of Morse complexes in 22-parameter families. We prove that if a Legendrian surface has a tame at infinity generating family, then it has a 00-graded MC2F and hence a 00-graded augmentation. In addition, continuation maps and a monodromy representation of π1(M)\pi_1(M) are associated to augmentations, and then used to provide more refined obstructions to the existence of generating families that (i) are linear at infinity or (ii) have trival bundle domain. We apply our methods in several examples.

Keywords

Cite

@article{arxiv.1703.04656,
  title  = {Generating families and augmentations for Legendrian surfaces},
  author = {Dan Rutherford and Michael G Sullivan},
  journal= {arXiv preprint arXiv:1703.04656},
  year   = {2018}
}
R2 v1 2026-06-22T18:44:58.906Z