Grupo de investigación
Geometría Diferencial y sus aplicaciones

Publicaciones: Año 2005

  1. J. A. Aledo, L. J. Alias and A. Romero, A new proof of Liebmann classical rigidity theorem for surfaces in space forms, Rocky Mountain J. Math. 35, No 6 (2005) 1811-1824
  2. http://arxiv.org/pdf/math-ph/0404060 M. Barros, J. L. Cabrerizo, M. Fernández and A. Romero, The Gauss-Landau-Hall Problem on Riemannian Surfaces, J. Math. Physics 46, (2005) 11295-1--11295-15
  3. M. Barros, A. Ferrández, M. A. Javaloyes and P. Lucas, Relativistic particles with ridigity and torsion in D=3 spacetimes, Class. Quantum Gravity 22 No. 3(2005), 489-513.
  4. A. Bernal and M. Sánchez, Smoothness of time functions and the metric splitting of globally hyperbolic spacetimes, Comm. Math. Phys. 257 (2005), 43-50
  5. R. Bartolo, A.M. Candela, J. L. Flores, Timelike geodesics in stationary Lorentzian manifolds with unbounded coefficients, Discrete Contin. Dynam. Syst, Suppl. Vol, 70-76 (2005).
  6. R. Bartolo, A.M. Candela, J.L. Flores, A. Salvatore, Periodic trajectories in Plane Wave type spacetimes, Discrete Contin. Dynam. Syst, Suppl. Vol, 77-83 (2005)
  7. L. Ferrer and F. Martín, Minimal surfaces with helicoidal ends, Math. Z. 250 (2005), no. 4, 807--839
  8. D. Gámez, M. Pasadas, R. Pérez and C. Ruiz, The Saccheri cuadrilateral, translations and tesselations in the Hyperbolic Plane, International J. Pure Appl. Math. 23 No.4 (2005), 565-576
  9. A. García-Parrado and M. Sánchez, Further properties of causal relationship: causal structure stability, new criteria for isocausality and counterexamples, Class. Quant. Grav., 22 (2005) 4589-4619.
  10. A. García-Parrado and J. M. M. Senovilla, Causal structures and causal boundaries, Class. Quant. Grav. 22(2005), no. 9, R1-R84
  11. J. Gielis, S. Haesen and L. Verstraelen, Universal natural shapes, Kragujevac J. Math. 28 (2005), 57-68
  12. S. Haesen, Optimal inequalities for embedded spacetimes, Kragujevac J. Math. 28 (2005), 69-85
  13. S. Haesen and L. Verstraelen, Curvature and symmetries of parallel transport. Chapter 8 and Extrinsic symmetries of parallel transport, Chapter 9 in: Differential Geometry and Topology, Discrete and Computational Geometry, eds. M. Boucetta and J-M. Morvan, IOS Press, NATO Science Series, 2005, pp. 197-255
  14. M. Kimura and M. Ortega, Congruence classes of Frenet curves in complex quadrics, J. Geom. 83(2005), 121-136
  15. F. Martín and S. Morales, Complete proper minimal surfaces in convex bodies of R3, Duke Math. J. 128 (2005), no. 3, 559--593
  16. F. J. Palomo and A. Romero. Certain actual topics on modern Lorentzian geometry, Book chapter in Handbook of Differential Geometry, Elsevier, Vol. 2, 2005, 513-546.
  17. A. Rider, R. Rubio, Sobre el concepto de mediatriz y sus generalizaciones, Lecturas Matemáticas 26(2005), 177-182
  18. A. Rider, R. Rubio, A modal logic for incidence spherical geometry, Rev. Real Academia de Ciencias Exactas, Físicas y Naturales, Serie A, Matemá 99(2006), 79-117
  19. C. Ruiz, Geometría Estática vs. Geometría Dinámica. De la Geometría de los objetos a la Geometría por las transformaciones, Investigación en el Aula de Matemáticas. LA GEOMETRIA. Publicación de SAEM Thales - UGR, Granada, 2005
  20. M. Sánchez, On the geometry of static spacetimes, Nonlinear Anal., 63 (2005) e455-e463.
  21. F. G. Santos, J. D. Pérez, On the Lie derivative of structure Jacobi operator of real hypersurfaces in complex projective space, Pub. Math. Debrecen 66 No. 3-4 (2005) 269-282
  22. F. G. Santos, J. D. Pérez and Y. J. Suh, Real hypersurfaces in complex projective space whose structure Jacobi operator is Lie xi-parallel, Diff. Geom. Appl. 22 No. 2 (2005), 181-188

  1. C. Ruiz, La Alhambra y la decoración. Elia EyD, Granada, 2005. GR-388-2005