AFFINE TRANSLATION SURFACES IN 3-DIMENSIONAL EUCLIDEAN SPACE SATISFYING $ \Delta r_{i}=\lambda _{i}r_{i}$

Bendehiba Senoussı; Mohammed Bekkar

Research Article

AFFINE TRANSLATION SURFACES IN 3-DIMENSIONAL EUCLIDEAN SPACE SATISFYING $ \Delta r_{i}=\lambda _{i}r_{i}$

Year 2017, Volume: 5 Issue: 2, 47 - 53, 15.10.2017

Bendehiba Senoussı Mohammed Bekkar

Abstract

In this paper we study the affine translation surfaces in 3-dimensional Euclidean space $\mathbb{E}^{3}$ under the condition $\Delta r_{i}=\lambda _{i}r_{i}$, where $\lambda _{i}\in \mathbb{R}$ and $\Delta $ denotes the Laplace operator. We obtain the complete classification for those ones.

Keywords

Ane translation surfaces, nite type immersion, Laplacian operator

References

[1] M. Bekkar and B. Senoussi, Factorable surfaces in the three-dimensional Euclidean and Lorentzian spaces satisfying $\Delta r_{i}=\lambda _{i}r_{i},$ J. Geom. 103 (2012), 17 - 29.
[2] M. Bekkar and B. Senoussi, Translation surfaces in the 3-dimensional space satisfying $\Delta ^{III}r_{i}=\mu _{i}r_{i},$ J. Geom. 103 (2012), 367-374.
[3] Chr. Beneki, G. Kaimakamis and B.J. Papantoniou, Helicoidal surfaces in the three dimensional Minkowski space, J. Math. Appl. 275 (2002), 586-614.
[4] B.-Y. Chen, Total mean curvature and submanifolds of nite type, World Scientic, Singapore. (1984).
[5] M. Choi and Y.H. Kim, Characterization of the helicoid as ruled surfaces with pointwise 1-type Gauss map, Bull. Korean Math. Soc. 38 (2001), 753-761.
[6] M. Choi, Y.H. Kim, H. Liu and D.W. Yoon, Helicoidal surfaces and their Gauss map in Minkowski 3-Space, Bull. Korean Math. Soc. 47 (2010), 859-881.
[7] F. Dillen, J. Pas and L. Verstraelen, On surfaces of nite type in Euclidean 3-space, Kodai Math. J. 13 (1990), 10-21.
[8] A. Ferrandez, O.J. Garay and P. Lucas, On a certain class of conformally at Euclidean hypersurfaces, Proc. of the Conf, in Global Analysis and Global Differential Geometry, Berlin. (1990).
[9] G. Kaimakamis, B.J. Papantoniou and K. Petoumenos, Surfaces of revolution in the 3-dimensional Lorentz-Minkowski space $\mathbb{E}_{1}^{3}$ satisfying $\Delta ^{III}\overrightarrow{r}=A\overrightarrow{r}$, Bull. Greek. Math. Soc. 50 (2005), 76-90.
[10] H. Liu, Translation surfaces with constant mean curvature in 3-dimensional spaces, J. Geom. 64 (1999), 141-149.
[11] H. Liu and Y. Yu, Ane translation surfaces in Euclidean 3 -space, Proc. Japan Acad. 89 (2013), 111-113.
[12] R. Lopez, Minimal translation surfaces in hyperbolic space, Beitr. Algebra Geom. 52 (2011), 105-112.
[13] R. Lopez and M. I. Munteanu, Minimal translation surfaces in Sol3, J. Math. Soc. Japan, 64 (2012), 985-1003.
[14] M. I. Munteanu and A. I. Nistor, Polynomial translationWeingarten surfaces in 3-dimensional Euclidean space, Proceedings of the VIII International Colloquium on Dierential Geometry, World Scientic. (2009), 316-320.
[15] B. Senoussi and M. Bekkar, Helicoidal surfaces in the 3-dimensional Lorentz - Minkowski space $\mathbb{E}_{1}^{3}$ satisfying $\Delta ^{III}r=Ar$, Tsukuba J. Math. 37 (2013), 339 - 353.
[16] K. Seo, Translation hypersurfaces with constant curvature in space forms, Osaka J. Math. 50 (2013), 631-641.
[17] S. Stamatakis and H. Al-Zoubi, Surfaces of revolution satisfying $\Delta ^{III}x=Ax$, J. Geom. Graph. 14 (2010), 181-186.
[18] B. O'Neill, Semi-Riemannian geometry with applications to relativity, Academic Press, Waltham. (1983).
[19] T. Takahashi, Minimal immersions of Riemannian manifolds, J. Math. Soc. Japan. 18 (1966), 380-385.
[20] L. Verstraelen, J. Walrave, S. Yaprak, The minimal translation surfaces in Euclidean space, Soochow J. Math. 20 (1994), 77-82.

Year 2017, Volume: 5 Issue: 2, 47 - 53, 15.10.2017

Bendehiba Senoussı Mohammed Bekkar

Abstract

References

[1] M. Bekkar and B. Senoussi, Factorable surfaces in the three-dimensional Euclidean and Lorentzian spaces satisfying $\Delta r_{i}=\lambda _{i}r_{i},$ J. Geom. 103 (2012), 17 - 29.
[2] M. Bekkar and B. Senoussi, Translation surfaces in the 3-dimensional space satisfying $\Delta ^{III}r_{i}=\mu _{i}r_{i},$ J. Geom. 103 (2012), 367-374.
[3] Chr. Beneki, G. Kaimakamis and B.J. Papantoniou, Helicoidal surfaces in the three dimensional Minkowski space, J. Math. Appl. 275 (2002), 586-614.
[4] B.-Y. Chen, Total mean curvature and submanifolds of nite type, World Scientic, Singapore. (1984).
[5] M. Choi and Y.H. Kim, Characterization of the helicoid as ruled surfaces with pointwise 1-type Gauss map, Bull. Korean Math. Soc. 38 (2001), 753-761.
[6] M. Choi, Y.H. Kim, H. Liu and D.W. Yoon, Helicoidal surfaces and their Gauss map in Minkowski 3-Space, Bull. Korean Math. Soc. 47 (2010), 859-881.
[7] F. Dillen, J. Pas and L. Verstraelen, On surfaces of nite type in Euclidean 3-space, Kodai Math. J. 13 (1990), 10-21.
[8] A. Ferrandez, O.J. Garay and P. Lucas, On a certain class of conformally at Euclidean hypersurfaces, Proc. of the Conf, in Global Analysis and Global Differential Geometry, Berlin. (1990).
[9] G. Kaimakamis, B.J. Papantoniou and K. Petoumenos, Surfaces of revolution in the 3-dimensional Lorentz-Minkowski space $\mathbb{E}_{1}^{3}$ satisfying $\Delta ^{III}\overrightarrow{r}=A\overrightarrow{r}$, Bull. Greek. Math. Soc. 50 (2005), 76-90.
[10] H. Liu, Translation surfaces with constant mean curvature in 3-dimensional spaces, J. Geom. 64 (1999), 141-149.
[11] H. Liu and Y. Yu, Ane translation surfaces in Euclidean 3 -space, Proc. Japan Acad. 89 (2013), 111-113.
[12] R. Lopez, Minimal translation surfaces in hyperbolic space, Beitr. Algebra Geom. 52 (2011), 105-112.
[13] R. Lopez and M. I. Munteanu, Minimal translation surfaces in Sol3, J. Math. Soc. Japan, 64 (2012), 985-1003.
[14] M. I. Munteanu and A. I. Nistor, Polynomial translationWeingarten surfaces in 3-dimensional Euclidean space, Proceedings of the VIII International Colloquium on Dierential Geometry, World Scientic. (2009), 316-320.
[15] B. Senoussi and M. Bekkar, Helicoidal surfaces in the 3-dimensional Lorentz - Minkowski space $\mathbb{E}_{1}^{3}$ satisfying $\Delta ^{III}r=Ar$, Tsukuba J. Math. 37 (2013), 339 - 353.
[16] K. Seo, Translation hypersurfaces with constant curvature in space forms, Osaka J. Math. 50 (2013), 631-641.
[17] S. Stamatakis and H. Al-Zoubi, Surfaces of revolution satisfying $\Delta ^{III}x=Ax$, J. Geom. Graph. 14 (2010), 181-186.
[18] B. O'Neill, Semi-Riemannian geometry with applications to relativity, Academic Press, Waltham. (1983).
[19] T. Takahashi, Minimal immersions of Riemannian manifolds, J. Math. Soc. Japan. 18 (1966), 380-385.
[20] L. Verstraelen, J. Walrave, S. Yaprak, The minimal translation surfaces in Euclidean space, Soochow J. Math. 20 (1994), 77-82.

There are 20 citations in total.

Details

Subjects	Engineering
Journal Section	Articles
Authors	Bendehiba Senoussı This is me Mohammed Bekkar This is me
Publication Date	October 15, 2017
Submission Date	October 13, 2017
Acceptance Date	May 31, 2017
Published in Issue	Year 2017 Volume: 5 Issue: 2

Cite

APA	Senoussı, B., & Bekkar, M. (2017). AFFINE TRANSLATION SURFACES IN 3-DIMENSIONAL EUCLIDEAN SPACE SATISFYING $ \Delta r_{i}=\lambda _{i}r_{i}$. Konuralp Journal of Mathematics, 5(2), 47-53.
AMA	Senoussı B, Bekkar M. AFFINE TRANSLATION SURFACES IN 3-DIMENSIONAL EUCLIDEAN SPACE SATISFYING $ \Delta r_{i}=\lambda _{i}r_{i}$. Konuralp J. Math. October 2017;5(2):47-53.
Chicago	Senoussı, Bendehiba, and Mohammed Bekkar. “AFFINE TRANSLATION SURFACES IN 3-DIMENSIONAL EUCLIDEAN SPACE SATISFYING $ \Delta r_{i}=\lambda _{i}r_{i}$”. Konuralp Journal of Mathematics 5, no. 2 (October 2017): 47-53.
EndNote	Senoussı B, Bekkar M (October 1, 2017) AFFINE TRANSLATION SURFACES IN 3-DIMENSIONAL EUCLIDEAN SPACE SATISFYING $ \Delta r_{i}=\lambda _{i}r_{i}$. Konuralp Journal of Mathematics 5 2 47–53.
IEEE	B. Senoussı and M. Bekkar, “AFFINE TRANSLATION SURFACES IN 3-DIMENSIONAL EUCLIDEAN SPACE SATISFYING $ \Delta r_{i}=\lambda _{i}r_{i}$”, Konuralp J. Math., vol. 5, no. 2, pp. 47–53, 2017.
ISNAD	Senoussı, Bendehiba - Bekkar, Mohammed. “AFFINE TRANSLATION SURFACES IN 3-DIMENSIONAL EUCLIDEAN SPACE SATISFYING $ \Delta r_{i}=\lambda _{i}r_{i}$”. Konuralp Journal of Mathematics 5/2 (October 2017), 47-53.
JAMA	Senoussı B, Bekkar M. AFFINE TRANSLATION SURFACES IN 3-DIMENSIONAL EUCLIDEAN SPACE SATISFYING $ \Delta r_{i}=\lambda _{i}r_{i}$. Konuralp J. Math. 2017;5:47–53.
MLA	Senoussı, Bendehiba and Mohammed Bekkar. “AFFINE TRANSLATION SURFACES IN 3-DIMENSIONAL EUCLIDEAN SPACE SATISFYING $ \Delta r_{i}=\lambda _{i}r_{i}$”. Konuralp Journal of Mathematics, vol. 5, no. 2, 2017, pp. 47-53.
Vancouver	Senoussı B, Bekkar M. AFFINE TRANSLATION SURFACES IN 3-DIMENSIONAL EUCLIDEAN SPACE SATISFYING $ \Delta r_{i}=\lambda _{i}r_{i}$. Konuralp J. Math. 2017;5(2):47-53.

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