Etherington's reciprocity theorem
The Etherington's distance-duality equation is the relationship between the luminosity distance of standard candles and the angular diameter distance.[1] The equation is as follows: , where is the luminosity distance and the angular-diameter distance.
History and derivations
When Etherington introduced this equation in 1933, he mentioned that this equation was proposed by Tolman as a way to test a cosmological model. Ellis proposed a proof of this equation in the context of Riemannian geometry.[2][3] A quote from Ellis: "The core of the reciprocity theorem is the fact that many geometric properties are invariant when the roles of the source and observer in astronomical observations are transposed". This statement is fundamental in the derivation of the reciprocity theorem. The Etherington's reciprocity theorem was derived recently for a static universe; although this is more a pedagogical exercise.[4]
Validation from astronomical observations
The Etherington's distance-duality equation has been validated from astronomical observations based on the X-ray surface brightness and the Sunyaev-Zel'dovich effect of galaxy clusters.[5][6] The reciprocity theorem is considered to be true when photon number is conserved, gravity is described by a metric theory with photons traveling on unique null geodesics.[7] Any violation of the distance duality would be attributed to exotic physics.
References
- ↑ I.M.H. Etherington, “LX. On the Definition of Distance in General Relativity”, Philosophical Magazine, Vol. 15, S. 7 (1933), pp. 761-773.
- ↑ G.F.R. Ellis, “Relativistic cosmology”, Proceedings of the 47th International School of Physics “Enrico Fermi”, edited by R.K. Sachs (Academic Press, New York and London), Vol. 15 (1971), pp. 104-182.
- ↑ G.F.R. Ellis, “On the Definition of Distance in General Relativity: I.M.H. Etherington (Philosophical Magazine ser. 7, vol. 15, 761 (1933))”, General Relativity and Gravitation, Vol.39 (2007), pp. 1047–1052.
- ↑ Y. Heymann. A Derivation of the Etherington’s Distance-Duality Equation. International Journal of Astrophysics and Space Science, Vol. 3, No. 4, 2015, pp. 65-69.
- ↑ J.-P. Uzan, N. Aghanim, and Y. Mellier, “Distance Duality Relation from X-Ray and Sunyaev-Zel’dovich Observations of Clusters”, Physical Review D, Vol. 70, 083533 (2004).
- ↑ F. Bernardis, E. Giusarma, and A. Melchiorri, “Constraints on Dark Energy and Distance Duality from Sunyaev-Zel’dovich Effect and Chandra X-Ray Measurements”, International Journal of Modern physics D, Vol. 15, No. 5 (2006), pp.759-766.
- ↑ B.A. Bassett, and M. Kunz, “Cosmic Distance-Duality as a Probe of Exotic Physics and Acceleration”, Physical Review D, Vol. 69, 101305 (2004).