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Symmetry, Integrability and Geometry: Methods and Applications, 2017, Volume 13, 004, 56 pp.
DOI: https://doi.org/10.3842/SIGMA.2017.004
(Mi sigma1204)
 

This article is cited in 7 scientific papers (total in 7 papers)

The Geometry of Almost Einstein $(2, 3, 5)$ Distributions

Katja Sagerschniga, Travis Willseb

a Politecnico di Torino, Dipartimento di Scienze Matematiche, Corso Duca degli Abruzzi 24, 10129 Torino, Italy
b Fakultät für Mathematik, Universität Wien, Oskar-Morgenstern-Platz 1, 1090 Wien, Austria
Full-text PDF (862 kB) Citations (7)
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Abstract: We analyze the classic problem of existence of Einstein metrics in a given conformal structure for the class of conformal structures inducedf Nurowski's construction by (oriented) $(2, 3, 5)$ distributions. We characterize in two ways such conformal structures that admit an almost Einstein scale: First, they are precisely the oriented conformal structures $\mathbf{c}$ that are induced by at least two distinct oriented $(2, 3, 5)$ distributions; in this case there is a $1$-parameter family of such distributions that induce $\mathbf{c}$. Second, they are characterized by the existence of a holonomy reduction to $\mathrm{SU}(1, 2)$, $\mathrm{SL}(3, {\mathbb R})$, or a particular semidirect product $\mathrm{SL}(2, {\mathbb R}) \ltimes Q_+$, according to the sign of the Einstein constant of the corresponding metric. Via the curved orbit decomposition formalism such a reduction partitions the underlying manifold into several submanifolds and endows each ith a geometric structure. This establishes novel links between $(2, 3, 5)$ distributions and many other geometries – several classical geometries among them – including: Sasaki–Einstein geometry and its paracomplex and null-complex analogues in dimension $5$; Kähler–Einstein geometry and its paracomplex and null-complex analogues, Fefferman Lorentzian conformal structures, and para-Fefferman neutral conformal structures in dimension $4$; CR geometry and the point geometry of second-order ordinary differential equations in dimension $3$; and projective geometry in dimension $2$. We describe a generalized Fefferman construction that builds from a $4$-dimensional Kähler–Einstein or para-Kähler–Einstein structure a family of $(2, 3, 5)$ distributions that induce the same (Einstein) conformal structure. We exploit some of these links to construct new examples, establishing the existence of nonflat almost Einstein $(2, 3, 5)$ conformal structures for which the Einstein constant is positive and negative.
Keywords: $(2, 3, 5)$ distribution; almost Einstein; conformal geometry; conformal Killing field; CR structure; curved orbit decomposition; Fefferman construction; $\mathrm{G}_2$; holonomy reduction; Kähler–Einstein; Sasaki–Einstein; second-order ordinary differential equation.
Funding agency Grant number
Austrian Science Fund J3071-N13
P27072-N25
Received: July 26, 2016; in final form January 13, 2017; Published online January 19, 2017
Bibliographic databases:
Document Type: Article
Language: English
Citation: Katja Sagerschnig, Travis Willse, “The Geometry of Almost Einstein $(2, 3, 5)$ Distributions”, SIGMA, 13 (2017), 004, 56 pp.
Citation in format AMSBIB
\Bibitem{SagWil17}
\by Katja~Sagerschnig, Travis~Willse
\paper The Geometry of Almost Einstein $(2, 3, 5)$ Distributions
\jour SIGMA
\yr 2017
\vol 13
\papernumber 004
\totalpages 56
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\crossref{https://doi.org/10.3842/SIGMA.2017.004}
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\scopus{https://www.scopus.com/record/display.url?origin=inward&eid=2-s2.0-85014867573}
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  • This publication is cited in the following 7 articles:
    Citing articles in Google Scholar: Russian citations, English citations
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    Symmetry, Integrability and Geometry: Methods and Applications
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