Harris, Adam; Paternain, Gabriel P

Author(s)

Harris, Adam

Paternain, Gabriel P

Publication Date

2016

Abstract

We consider a closed orientable Riemannian 3-manifold (M,g) and a vector field X with unit norm whose integral curves are geodesics of g. Any such vector field determines naturally a 2-plane bundle contained in the kernel of the contact form of the geodesic flow of g. We study when this 2-plane bundle remains invariant under two natural almost complex structures. We also provide a geometric condition that ensures that X is the Reeb vector field of the 1-form λ obtained by contracting g with X. We apply these results to the case of great circle flows on the 3-sphere with two objectives in mind: one is to recover the result in [4] that a volume preserving great circle flow must be Hopf and the other is to characterize in a similar fashion great circle flows that are conformal relative to the almost complex structure in the kernel of λ given by rotation by π/2 according to the orientation of M.

Citation

Proceedings of the American Mathematical Society, 144(4), p. 1725-1734

ISSN

1088-6826

0002-9939

Link

https://hdl.handle.net/1959.11/20241

Publisher

American Mathematical Society

Title

Conformal Great Circle Flows on the 3-Sphere

Type of document

Journal Article

Entity Type

Publication

Author(s)	Harris, Adam Paternain, Gabriel P
Publication Date	2016
Abstract	We consider a closed orientable Riemannian 3-manifold (M,g) and a vector field X with unit norm whose integral curves are geodesics of g. Any such vector field determines naturally a 2-plane bundle contained in the kernel of the contact form of the geodesic flow of g. We study when this 2-plane bundle remains invariant under two natural almost complex structures. We also provide a geometric condition that ensures that X is the Reeb vector field of the 1-form λ obtained by contracting g with X. We apply these results to the case of great circle flows on the 3-sphere with two objectives in mind: one is to recover the result in [4] that a volume preserving great circle flow must be Hopf and the other is to characterize in a similar fashion great circle flows that are conformal relative to the almost complex structure in the kernel of λ given by rotation by π/2 according to the orientation of M.
Citation	Proceedings of the American Mathematical Society, 144(4), p. 1725-1734
ISSN	1088-6826 0002-9939
Link	https://hdl.handle.net/1959.11/20241
Publisher	American Mathematical Society
Title	Conformal Great Circle Flows on the 3-Sphere
Type of document	Journal Article
Entity Type	Publication

Conformal Great Circle Flows on the 3-Sphere

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