Vol. 18 No. 1 (2026): Biharmonic Helices in Three-Dimensional Lorentzian Egorov and $\varepsilon$-Spaces

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  Biharmonic Helices in Three-Dimensional Lorentzian Egorov and $\varepsilon$-Spaces

  Fatima Zahra Benzahra-Belkacem, Dr. Noura Sidhoumi

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  Abstract

  We consider three-dimensional Lorentzian Egorov and $\varepsilon$-spaces and show that the existence of proper biharmonic helices in these manifolds is highly constrained and closely tied to the causal character of the Frenet frame. In particular, we prove that no proper biharmonic helices exist in Egorov spaces unless the space is flat and the normal vector is spacelike. Furthermore, we establish that no proper biharmonic helices exist in three-dimensional $\varepsilon$-spaces.

  References

  W. Batat, G. Calvaruso and B. De Leo, Curvature properties of Lorentzian manifolds with large isometry groups. Math. Phys. Anal. Geom., 12 (2009), pp. 201-217.

  W. Batat, M. Brozos-Vázquez, E. García-Río and S. Gavino-Fernández, Ricci solitons on Lorentzian manifolds with large isometry groups. Bull. Lond. Math. Soc., 43 (2011), no. 6, pp. 1219-1227.

  R. Caddeo, S. Montaldo and C. Oniciuc, Biharmonic submanifolds of $S^{3}$. Internat. J. Math, 12 (2001), pp. 867-876.

  R. Caddeo, S. Montaldo and P. Piu, Biharmonic curves on a surface. Rend. Mat. App., 21 (2001), pp. 143-157.

  R. Caddeo, C. Oniciuc and P. Piu, Explicit formulas for non-geodesic biharmonic curves of the Heisenberg group. Rend. Semin. Mat. Univ. Politec. Torino, 62 (2004), no. 3, pp. 265-277.

  R. Caddeo, S. Montaldo, C. Oniciuc and P. Piu, The classification of biharmonic curves of Cartan-Vranceanu 3-dimensional spaces. In Modern Trends in Geometry and Topology, Cluj University Press: Cluj-Napoca, Romania, pp. 121-131, 2006.

  M. Cahen, J. Leroy, M. Parker, F. Tricerri and L. Vanhecke, Lorentz manifolds modelled on a Lorentz symmetric space. J. Geom. Phys., 7 (1990), no. 4, pp. 571-581.

  J. Eells and J.H. Sampson, Harmonic mappings of Riemannian manifolds. Amer. J. Math., 86 (1964), no. 1, pp. 109-160.

  I.P. Egorov, Riemannian spaces of the first three lacunary types in the geometric sense (in Russian). Dokl. Akad. Nauk. SSSR, 150 (1963), pp. 730-732.

  D. Fetcu, Biharmonic curves in Cartan-Vranceanu (2n+1)-dimensional spaces. Bul. Acad. Ştiinţe Rep. Mold. Mat., 53 (2007), no. 1, pp. 59-65.

  D. Fetcu and C. Oniciuc, Biharmonic curves in 3-dimensional Heisenberg group. Math. Commun., 13 (2008), no. 2, pp. 311-320.

  J. Inoguchi, Biharmonic curves in Minkowski 3-space. Int. Electron. J. Geom., 1 (2008), no. 1, pp. 40-83.

  G.Y. Jiang, 2-harmonic maps and their first and second variational formulas. Chinese Ann. Math. Ser. A, 7 (1986), no. 4, pp. 389-402.

  J. Lee, Biharmonic spacelike curves in Lorentzian Heisenberg space. Commun. Korean Math. Soc., 33 (2018), no. 4, pp. 1309-1320.

  R. López, Differential geometry of curves and surfaces in Lorentz-Minkowski space. Int. Electron. J. Geom., 7 (2014), no. 1, pp. 44-107.

  V. Patrangenaru, Lorentz manifolds with the three largest degrees of symmetry. Geom. Dedicata, 102 (2003), pp. 25-33.

  V. Patrangenaru, Locally homogeneous pseudo-Riemannian manifolds. J. Geom. Phys., 17 (1995), no. 1, pp. 59-72.

  J. Walrave, Curves and Surfaces in Minkowski Space. Doctoral Thesis, Katholieke Universiteit Leuven, Faculty of Science, Leuven, Belgium, 1995.