After antimatter gravity experiment at CERN -Prospects of the theory of the gravitational polarization of the quantum vacuum
Résumé
We start with a summary of the theory of the gravitational polarization of the quantum vacuum, which makes it possible to consider the quantum vacuum as a source of gravity in the Universe. Next, because virtual gravitational dipoles are indispensable for this theory, we suggested different theoretical possibilities for their existence. After that, we consider the first indications that three potential phenomena which, if confirmed, will present a major challenge to the Standard ꓥCDM Cosmology, can be explained within the framework of the gravitational polarization of the quantum vacuum; this adds to the already existing successes of the theory. These potential phenomena include: non-Newtonian gravity in internal dynamics of Wide Binary Stars; the existence of massive relic galaxies, as NGC 1277, which is dark matter deficient; a surprisingly fast formation of the first stars and galaxies. Finally, as an example of the complexity of gravitational polarization, we demonstrated the existence of regions with a negative effective gravitational charge; the insufficient understanding of complexity of polarization was reason for premature claims that observations within the Solar System dismiss the gravitational polarization of the quantum vacuum. All this suggests that recent antimatter gravity experiment at CERN (which proved that atoms and antiatoms have gravitational charge of the same sign and hence ruled out the existence of a particular kind of gravitational dipoles) cannot be considered as a disproof of the theory. The existence of virtual gravitational dipoles and gravitational polarization of the quantum vacuum remain open questions and exciting possibilities for a new model of the Universe.
Domaines
Physique [physics]Origine | Fichiers produits par l'(les) auteur(s) |
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