CNO cycle powering stars

Référence de la vidéo 11933921
Animation of the CNO cycle, a series of nuclear reactions that provides most of the energy in massive stars. The cycle converts four hydrogen nuclei (protons, red) into a helium nucleus, with a release of energy. It is a catalytic cycle, named as the nuclear reactions cycle through isotopes of carbon, nitrogen and oxygen. Initially, a free proton fuses with a carbon-12 nucleus, forming nitrogen-13 and emitting a gamma ray (yellow wave). This undergoes beta decay, in which a proton is converted to a neutron (yellow) with the emission of a positron (orange) and a neutrino (pink), forming carbon-13. Another proton then fuses, forming nitrogen-14 and a gamma ray, followed by a third proton, forming oxygen-15 and another gamma ray. This undergoes beta decay to nitrogen-15, emitting a positron and neutrino, before the fusion of a fourth proton ejects an alpha particle (helium-4), reforming the carbon-12. The process repeats in an endless cycle, converting hydrogen to helium and emitting energy. The CNO cycle is the dominant energy source for stars more than 1.3 times the Sun's mass. In Sun-sized stars, the proton-proton chain dominates: just 0.8% of the Sun's energy is produced by this cycle. There are three other CNO cycles, occurring less frequently. CNO-II occurs very rarely in the Sun, but more frequently in more massive stars. CNO-III and CNO-IV are only significant in very massive stars. For the proton-proton chain powering the Sun, see clip K003/3971.
Licence : Droits gérés
Crédit : Science Photo Library / Equinox Graphics
Model Release : Non requis
Property release : Non requis
Durée : 01:28 Minutes
Aspect ratio : 16/9
Restrictions : -

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