Table of Contents
ISRN Mathematical Physics
Volume 2012, Article ID 869069, 13 pages
Research Article

Remarks on Null Geodesics of Born-Infeld Black Holes

Department of Physics and Geology, Northern Kentucky University, Highland Heights, KC 41099, USA

Received 9 April 2012; Accepted 18 July 2012

Academic Editors: M. Ehrnström, D. Gepner, M. Rasetti, and P. Roy

Copyright © 2012 Sharmanthie Fernando. This is an open access article distributed under the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

Linked References

  1. M. Born and L. Infeld, “Foundations of the new field theory,” Proceedings of the Royal Society A, vol. A144, pp. 425–451, 1934. View at Google Scholar
  2. R. G. Leigh, “Dirac-Born-Infeld action from Dirichlet sigma model,” Modern Physics Letters A, vol. 4, Article ID 2767, 1989. View at Google Scholar
  3. G. W. Gibbons, “Aspects of Born-Infeld theory and string/M-theory,”
  4. A. A. Tseytlin, “Born-Infeld action, supersymmetry and string theory,”
  5. A. Garcia, H. Salazar, and J. F. Plebanski, “Type-D solutions of the Einstein and Born-Infeld nonlinear-electrodynamics equations,” Nuovo Cimento, vol. 84, pp. 65–90, 1984. View at Google Scholar
  6. M. Demianski, “Static electromagnetic geon,” Foundations of Physics, vol. 16, no. 2, pp. 187–190, 1986. View at Publisher · View at Google Scholar · View at Scopus
  7. S. I. Kruglov, “On generalized Born—Infeld electrodynamics,” Journal of Physics A, vol. 43, Article ID 375402, 2010. View at Publisher · View at Google Scholar
  8. L. Peng, Y. Rui-Hong, and Z. De-Cheng, “Thermodynamics of third order lovelock—Born—Infeld Black holes,” Communications in Theoretical Physics, vol. 56, pp. 845–850, 2011. View at Publisher · View at Google Scholar
  9. E. F. Eiroa and C. Simeone, “Thin shells in Einstein-Born-Infeld theory,” AIP Conference Proceedings, vol. 1458, pp. 383–386, 2012. View at Google Scholar
  10. M. Milgrom, “Practically linear analogs of the Born-Infeld and other nonlinear theories,” Physical Review D, vol. 85, Article ID 105018, 2012. View at Publisher · View at Google Scholar
  11. N. Breton, “Born-Infeld generalization of the Reissner-Nordstrom black hole,”
  12. G. W. Gibbons and C. A. R. Herdeiro, “The Melvin universe in Born-Infeld theory and other theories of nonlinear electrodynamics,” Classical and Quantum Gravity, vol. 18, pp. 1677–1690, 2001. View at Google Scholar
  13. S. Fernando, “Gravitational perturbation and quasi-normal modes of charged black holes in Einstein-Born-Infeld gravity,” General Relativity and Gravitation, vol. 37, pp. 585–604, 2005. View at Publisher · View at Google Scholar
  14. S. Fernando and C. Holbrook, “Stability and quasi normal modes of charged born-infeld black holes,” International Journal of Theoretical Physics, vol. 45, pp. 1630–1645, 2006. View at Google Scholar
  15. S. Fernando, “Decay of massless dirac field around the Born-Infeld black hole,” International Journal of Modern Physics A, vol. 25, pp. 669–684, 2010. View at Publisher · View at Google Scholar
  16. S. H. Mazharimousavi, M. Halisoy, and Z. Amirabi, “New non-Abelian black hole solutions in Born-Infeld gravity,” Physical Review D, vol. 78, Article ID 064050, 2008. View at Google Scholar
  17. Y. S. Myung and T. Moon, “Hairy mass bound in the Einstein-Born-Infeld black hole,”
  18. D. A. Rasheed, “Non-linear electrodynamics: zeroth and First Laws of Black Hole Mechanics,”
  19. S. Chandrasekhar, The Mathematical Theory of Black Holes, Oxford University Press, 1992.
  20. E. F. Eiroa, “Gravitational lensing by Einstein-Born-Infeld black holes,” Physical Review D, vol. 73, no. 4, Article ID 043002, 2006. View at Google Scholar
  21. P. Amore, S. Arceo, and F. M. Fernandez, “Analytical formulas for gravitational lensing: higher order calculation,” Physical Review D, vol. 74, Article ID 083004, 2006. View at Google Scholar