Abstract
Significant absorption of radiation is usually accompanied by refraction.This is not the case for γ rays travelling cosmic distances. We show that the realand imaginary parts of the refraction index are indeed commensurable, as they are relatedby dispersion relations, but when turning to physical observables, the (finite) optical depthis way larger than the (infinitesimal) time delay of the gamma rays relative to gravitational radiation.The numerically large factor solving the apparent contradiction is E γ /H 0arising from basic wave properties (Bouguer-Beer-Lambert law)and the standard cosmological model, respectively.In consequence, no delay of the γ-ray propagation affects multimessenger astronomy. We particularlypredict no such delay between gravitational waves and γ photons from binary mergers such as GW170817,save for that induced at the source, nor from more energetic events at cosmic distances.
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