When an electron annihilates a proton the weak force is overcome by the strong gravity in the center of an exploding star.
And the electrons and protons are in the same space in the same supermassive state at the same time.
The nuetrons are unbound from the protons and the strong force is released as thermonuclear energy plus two photons released as light according to Dirac.So if the protons and electrons don't annihilate you are left with just lots of nuetrons and energy because the charges cancel and no one knows how much energy this produces turning protons and electrons to neutrons.
Missing neutron star?
SN 1987A appears to be a core-collapse supernova, which should result in a neutron star given the size of the original star.[6] Indeed, the neutrino data indicate that a compact object did form at the star's core. However, since the supernova first became visible, astronomers have been searching for the collapsed core but have not detected it. The Hubble Space Telescope has taken images of the supernova regularly since August 1990, but, so far, the images have shown no evidence of a neutron star. A number of possibilities for the 'missing' neutron star are being considered, although none is clearly favored. The first is that the neutron star is enshrouded in dense dust clouds so that it cannot be seen. Another is that a pulsar was formed, but with either an unusually large or small magnetic field. It is also possible that large amounts of material fell back on the neutron star, so that it further collapsed into a black hole. Neutron stars and black holes often give off light when material falls onto them. If there is a compact object in the supernova remnant, but no material to fall onto it, it could be very dim and therefore could avoid detection. Other scenarios have also been considered, such as if the collapsed core became a quark star.[10][11]
Did the nuetron star explode in the supa nova in a stage 2............?
So could nuetrons in a big crunch signularity explode to give the big bang................
The nuetrons being the product of electron proton annihilation.
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