The effect of Relativistic Aberration on Cosmological Distances

The effect of Relativistic Aberration on Cosmological Distances
Nicol`o Cedola
arXiv:2403.18567v1 Announce Type: new
Abstract: Aims: we propose that the condition of relative motion between us and the objects that we observe in the Universe should generate relativistic aberration on the photons that such objects emit, varying the observed flux similarly to the cases of blazars and neutron stars, with instead a decrease of this radiative flux. Methods: we follow some important papers and textbook used in modern cosmology, adding the effects of relativistic aberration in the theoretical description of the Cosmos. Results: New definitions for the luminosity distance and the angular distance arise, with the consequence of changing the cosmological parameters measured in the last years. A qualitative description of all of this is also performed on the multipole analysis of the CMB.arXiv:2403.18567v1 Announce Type: new
Abstract: Aims: we propose that the condition of relative motion between us and the objects that we observe in the Universe should generate relativistic aberration on the photons that such objects emit, varying the observed flux similarly to the cases of blazars and neutron stars, with instead a decrease of this radiative flux. Methods: we follow some important papers and textbook used in modern cosmology, adding the effects of relativistic aberration in the theoretical description of the Cosmos. Results: New definitions for the luminosity distance and the angular distance arise, with the consequence of changing the cosmological parameters measured in the last years. A qualitative description of all of this is also performed on the multipole analysis of the CMB.