2017
Том 69
№ 9

All Issues

Bicomplex number and tensor product surfaces in $\mathbb{R}^4_2$

Karakus S. O., Yayli Y.

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Abstract

We show that a hyperquadric $M$ in $\mathbb{R}^4_2$ is a Lie group by using the bicomplex number product. For our purpose, we change the definition of tensor product. We define a new tensor product by considering the tensor product surface in the hyperquadric $M$. By using this new tensor product, we classify totally real tensor product surfaces and complex tensor product surfaces of a Lorentzian plane curve and a Euclidean plane curve. By means of the tensor product surfaces of a Lorentzian plane curve and a Euclidean plane curve, we determine a special subgroup of the Lie group M. Thus, we obtain the Lie group structure of tensor product surfaces of a Lorentzian plane curve and a Euclidean plane curve. Morever, we obtain left invariant vector fields of these Lie groups. We consider the left invariant vector fields on these groups, which constitute a pseudo-Hermitian structure. By using this, we characterize these Lie groups as totally real or slant in $\mathbb{R}^4_2$.

English version (Springer): Ukrainian Mathematical Journal 64 (2012), no. 3, pp 344-355.

Citation Example: Karakus S. O., Yayli Y. Bicomplex number and tensor product surfaces in $\mathbb{R}^4_2$ // Ukr. Mat. Zh. - 2012. - 64, № 3. - pp. 307-317.

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