Redirected from Proton-proton reaction
The first step involves the fusion of two hydrogen nuclei 1H (protons) into deuterium 2H, releasing a positron as one proton changes into a neutron, and a neutrino. To overcome the electromagnetic repulsion between two hydrogen nuclei requires a large amount of energy, and this reaction takes an average of 10 billion years to complete. It is because the slowness of this reaction that the Sun is still shining; if it where faster, the Sun would have exhausted its hydrogen long ago.
The positron immediately annihilates with one of the hydrogen's electrons, and their mass energy is carried off by two gamma ray photons.
After this the deuterium produced in the first stage can fuse with another hydrogen to produce a light isotope of helium, 3He:
Finally, after millions of years, two of the helium nuclei 3He produced can fuse together to make the common helium isotope 4He, releasing two hydrogen nuclei to start the reaction again through three different paths called PP1, PP2 and PP3:
PP1:
PP2:
3He + 4He | → | 7Be + γ | |
7Be + e- | → | 7Li + νe | |
7Li + 1H | → | 4He + 4He |
PP3:
3He + 4He | → | 7Be + γ | |
7Be + 1H | → | 8B + γ | |
8B | → | 8Be + e+ + νe | |
8Be | ↔ | 4He + 4He |
See also:
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