Extended theories of gravity

Distribution of astronomical systems in the phase space diagram or gravity, plotted by X. Hernández

Extended theories of gravity are alternative theories of gravity developed from the exact starting points investigated first by Einstein and Hilbert. These are theories describing gravity, which are metric theory, "a linear connection" or related affine theories, or metric-affine gravitation theory. Rather than trying to discover correct calculations for the matter side of the Einstein field equations; which include inflation, dark energy, dark matter, large-scale structure, and possibly quantum gravity; it is proposed, instead, to change the gravitational side of the equation.[1][2]

Proposed theories

Hernández et al.

One such theory is also an extension to general relativity and Newton's Universal gravity law (), first proposed in 2010 by the Mexican astronomers Xavier Hernández Doring, Sergio Mendoza Ramos et al., researchers at the Astronomy Institute, at the National Autonomous University of Mexico.[3][4] This theory is in accordance with observations of kinematics of the solar system, extended binary stars,[5] and all types of galaxies and galactic groups and clouds.[6] It also reproduces the gravitational lensing effect with out the need of postulating dark matter.[7]

There is some evidence that it could also explain the dark energy phenomena[8][9] and give a nice solution to the initial conditions problem.[10]

These results can be classified as a metric f(R) gravity theory, more properly an f(R,T) theory, derived from an action principle. This approach to solve the dark matter problem takes into account the Tully–Fisher relation as an empirical law that applies always at scales larger than the Milgrom radius.[11]

See also

References

  1. Capozziello, S.; De Laurentis, M. (2011). "Extended Theories of Gravity". Physics Reports. 509 (4–5): 167–321. arXiv:1108.6266Freely accessible. Bibcode:2011PhR...509..167C. doi:10.1016/j.physrep.2011.09.003.
  2. Capozziello, S.; Francaviglia, M. (2008). "Extended theories of gravity and their cosmological and astrophysical applications". General Relativity and Gravitation. 40 (2–3): 357–420. arXiv:0706.1146Freely accessible. Bibcode:2008GReGr..40..357C. doi:10.1007/s10714-007-0551-y.
  3. Mendoza, S.; Hernandez, X.; Hidalgo, J. C.; Bernal, T. (2011). "A natural approach to extended Newtonian gravity: Tests and predictions across astrophysical scales". Monthly Notices of the Royal Astronomical Society. 411 (411): 226–234. arXiv:1006.5037Freely accessible. Bibcode:2011MNRAS.411..226M. doi:10.1111/j.1365-2966.2010.17685.x.
  4. Hidalgo, J. C.; Mendoza, S.; Hernandez, X.; Bernal, T.; Jimenez, M. A.; Allen, C. (2012). "Non-relativistic Extended Gravity and its applications across different astrophysical scales". AIP Conference Proceedings. AIP Conference Proceedings. 1458: 427–430. arXiv:1202.4189Freely accessible. Bibcode:2012AIPC.1458..427H. doi:10.1063/1.4734451.
  5. Hernandez, X.; Jiménez, M. A.; Allen, C. (2012). "Wide binaries as a critical test of Classical Gravity". European Physical Journal C. 72 (2): 1884. arXiv:1105.1873Freely accessible. Bibcode:2012EPJC...72.1884H. doi:10.1140/epjc/s10052-012-1884-6.
  6. Hernandez, X. (2012). "A Phase Space Diagram for Gravity". Entropy. 14 (12): 848. arXiv:1203.4248Freely accessible. Bibcode:2012Entrp..14..848H. doi:10.3390/e14050848.
  7. Mendoza, S.; Bernal, T.; Hernandez, X.; Hidalgo, J. C.; Torres, L. A. (2013). "Gravitational lensing with f(χ)=χ3/2 gravity in accordance with astrophysical observations". Monthly Notices of the Royal Astronomical Society. 433 (3): 1802–1812. arXiv:1208.6241Freely accessible. Bibcode:2013MNRAS.433.1802M. doi:10.1093/mnras/stt752.
  8. Mendoza, S. (2012). "Extending Cosmology: The Metric Approach". In Olmo, G. J. Open Questions in Cosmology. INTECH. pp. 133–156. arXiv:1208.3408Freely accessible. doi:10.5772/53878. ISBN 978-953-51-0880-1.
  9. Carranza, D. A.; Mendoza, S.; Torres, L. A. (2012). "A cosmological dust model with extended f(χ) gravity". European Physical Journal C. 73: 2282. arXiv:1208.2502Freely accessible. Bibcode:2013EPJC...73.2282C. doi:10.1140/epjc/s10052-013-2282-4.
  10. Hernandez, X.; Jimenez, M. A. (2013). "A first linear cosmological structure formation scenario under extended gravity". arXiv:1307.0777Freely accessible [astro-ph.CO].
  11. Capozziello, S.; De Laurentis, M. (2013). "Extended Gravity: State of the Art and Perspectives". In Rosquist, K.; Jantzen, R. T.; Ruffini, R. Proceedings of the Thirteenth Marcel Grossman Meeting on General Relativity. World Scientific. arXiv:1307.4523Freely accessible.

Further reading

External links

News

This article is issued from Wikipedia - version of the 12/25/2014. The text is available under the Creative Commons Attribution/Share Alike but additional terms may apply for the media files.