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Optical Approach to Gravitational Redshift

General Physics 2013-10-17 v9

Abstract

An optical approach begins by interpreting the gravitational redshift resulting to a change in the relative velocity of light due to the medium of propagation in the gravitational field. The discussion continues by pointing out an agreement in structure between the equation for rays in geometrical optics and the geodesic equation of general relativity. From their comparison we learn that the path of rays should be given by the relation ds2=n2(r)dr2+r2dθ2ds^2=n^2(r)dr^2+r^2d\theta^2, not by ds2=dr2+r2dθ2ds^2=dr^2+r^2d\theta^2, in a medium with spherical symmetry of refractive index n(r)n(r). The development of an optical analogy suggests introducing n2(r)n^2(r) in place of grrg_{rr} as an optical version of the Schwarzschild metric. In form and content, n2(r)n^2(r) is different from grrg_{rr}. The optical point of view replaces the general-relativity explanations in terms of time and gravitation.

Keywords

Cite

@article{arxiv.physics/0006006,
  title  = {Optical Approach to Gravitational Redshift},
  author = {Y. G. Yi},
  journal= {arXiv preprint arXiv:physics/0006006},
  year   = {2013}
}

Comments

Written out in 1997 as a continuation of physics/0006005