# New cohomological invariants of foliations

**Authors:** Georges Habib, Ken Richardson

arXiv: 1906.03746 · 2025-03-17

## TL;DR

This paper introduces new cohomological invariants called antibasic cohomology for Riemannian foliations, establishing their invariance, analytic properties, and topological restrictions, thus expanding the understanding of foliation invariants.

## Contribution

It defines antibasic cohomology groups for Riemannian foliations, proves their invariance and Hodge theorem, and explores their topological and geometric implications.

## Key findings

- Antibasic cohomology groups are invariant under diffeomorphisms and metric changes.
- A Hodge theorem for antibasic cohomology is established.
- Restrictions on antibasic Betti numbers are derived from topological and geometric properties.

## Abstract

Given a smooth foliation on a closed manifold, basic forms are differential forms that can be expressed locally in terms of the transverse variables. The space of basic forms yields a differential complex, because the exterior derivative fixes this set. The basic cohomology is the cohomology of this complex, and this has been studied extensively. Given a Riemannian metric, the adjoint of the exterior derivative maps the orthogonal complement of the basic forms to itself, and we call the resulting cohomology the "antibasic cohomology". Although these groups are defined using the metric, the dimensions of the antibasic cohomology groups are invariant under diffeomorphism and metric changes. If the underlying foliation is Riemannian, the groups are foliated homotopy invariants that are independent of basic cohomology and ordinary cohomology of the manifold. For this class of foliations we use the codifferential on antibasic forms to obtain the corresponding Laplace operator, develop its analytic properties, and prove a Hodge theorem. We then find some topological and geometric properties that impose restrictions on the antibasic Betti numbers.

## Full text

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## References

20 references — full list in the complete paper: https://tomesphere.com/paper/1906.03746/full.md

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Source: https://tomesphere.com/paper/1906.03746