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2 papers
MATHEMATICS
On almost (para)complex Cayley structures on spheres $\mathbf{S}^{2,4}$ and $\mathbf{S}^{3,3}$
N. K. Smolentsev Kemerovo State University, Kemerovo, Russian
Federation
Abstract:
It is well known that almost complex structures exist on the six-dimensional sphere
$\mathbf{S}^6$ but the question of the existence of complex (ie, integrable) structures has not been solved so far. The most known almost complex structure on the sphere
$\mathbf{S}^6$ is the Cayley structure which is obtained by means of the vector product in the space
$\mathbf{R}^7$ of the purely imaginary octaves of Cayley
$\mathbf{Ca}$. There is another, split Cayley algebra
$\mathbf{Ca'}$, which has a pseudo-Euclidean scalar product of signature
$(4,4)$. The space of purely imaginary split octonions is the pseudo-Euclidean space
$\mathbf{R}^{3,4}$ with a vector product. In the space
$\mathbf{R}^{3,4}$, there are two types of spheres: pseudospheres
$\mathbf{S}^{2,4}$ of real radius and pseudo sphere
$\mathbf{S}^{3,3}$ of imaginary radius. In this paper, we study the Cayley structures on these pseudo-Riemannian spheres. On the first sphere
$\mathbf{S}^{2,4}$, the Cayley structure defines an orthogonal almost complex structure
$J$; on the second sphere,
$\mathbf{S}^{3,3}$, the Cayley structure defines an almost para-complex structure
$P$. It is shown that
$J$ and
$P$ are nonintegrable. The main characteristics of the structures
$J$ and
$P$ are calculated: the Nijenhuis tensors, as well as fundamental forms and their differentials. It is shown that, in contrast to the usual Riemann sphere
$\mathbf{S}^6$, there are (integrable) complex structures on
$\mathbf{S}^{2,4}$ and para-complex structures on
$\mathbf{S}^{3,3}$.
Keywords:
Cayley algebra, split Cayley algebra, $G2$ group, split-octonions, vector product, almost complex structure, almost para-complex structure, six-dimensional pseudo-Riemannian spheres.
UDC:
514.76
MSC: 53C15: 53C50;
53C30;
53C25;
53C38 Received: 14.02.2018
DOI:
10.17223/19988621/53/3
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