Heavy nucleii formation in black holes, fission in stars and in telluric planets – an explanation for volcanism, gravitational waves and a risk for nuclear reactors - Archive ouverte HAL Accéder directement au contenu
Pré-Publication, Document De Travail Année : 2018

Heavy nucleii formation in black holes, fission in stars and in telluric planets – an explanation for volcanism, gravitational waves and a risk for nuclear reactors

Florent Pirot

Résumé

Recent astrophysical discoveries, including actinid-rich stars and protostars close to a black hole, as well as geophysical research (for instance the proximity of zirconium and barytine mines, stable decay products of major fission products, to volcanic areas), allow to confirm, rearrange and expand the hypothesis first developed by J M Herndon in the 1990s by adaptating it fully to star cores and linking it to volcanism. I offer a contradiction of the R-process and of the chondritic model for the Earth’s composition: I claim that U and Th chains are not synthetized in supernovas, but at the origin of stars and planetary cores and synthetized in black holes thanks to gravity forces, offer a link between nuclear fission and fusion through ternary fission processes, claim that supernovas are the main factor for super volcanic eruptions (explaining volcano clusters) and suggest that neutrons expelled by supernovas, accelerated by the disappearance of attraction forces, constitute accelerated matter explaining gravitational waves. These neutrons are obviously able to destroy as well nuclear plants on a large perimeter.
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Dates et versions

hal-01673630 , version 1 (11-01-2018)
hal-01673630 , version 2 (21-05-2018)
hal-01673630 , version 3 (04-09-2018)
hal-01673630 , version 4 (15-02-2019)

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  • HAL Id : hal-01673630 , version 2

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Florent Pirot. Heavy nucleii formation in black holes, fission in stars and in telluric planets – an explanation for volcanism, gravitational waves and a risk for nuclear reactors. 2018. ⟨hal-01673630v2⟩
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