Everyone who is familiar with quantum-geometry dynamics knows that since it precludes the very existence of gravitational waves it also prohibits simultaneous gravitational signals and electromagnetic signals from a single event. Obviously, if LIGO-VIRGO detected gravitational waves then quantum-geometry dynamics would be falsified. That would be the end of what some people consider a promising theory. Nature is an implacable judge and its decisions can never be appealed. However, though QGD prohibits the existence of gravitational waves, it does not exclude the possibility that the LIGO-VIRGO observatories have detected something else. If that were the case, then GW170817 would indeed be a sort of multi-messenger event, just not one of the GW kind. So the question follows: What could the detection be that is both consistent with the GW170817 observations and with quantum-geometry dynamics?
Whatever the LIGO-VIRGO observatories detected travels, if it is linked to the detection of gamma ray burst that followed two seconds later, then it must travel at the speed of light. Now, according to QGD, the only thing that can travel at the speed of light are , photons and neutrinos. If the signals had been composed of photons or neutrinos, they would have been simultaneously detected by telescopes and neutrinos detectors. Since they haven’t, that leaves us with only one possibility; LIGO-VIRGO detected .
travel at the speed of light and cannot be detected by telescopes. But to impart sufficient momentum for the LIGO-VIRGO detectors to see them, we would need to have massive number of polarized . Considering this, I remembered a prediction I wrote years ago. That rotating black holes and neutron stars would polarized the preonic field around them. We’re talking about massive amount of . For single black holes or neutron stars, the polarization would be uniform (thus undetectable), but due to their orbital motions binary systems of the polarization of the preonic field would be modulated creating what we could call waves of or preonic waves. The LIGO-VIRGO could detect Such preonic waves modulated by the inward spiralling of merging massive structures such as black holes and neutron stars which would look like gravitational waves to the LIGO-VIRGO. The question is then, how can we distinguish between preonic waves and gravitational waves?
QGD provides a simple answer that follows naturally from its axioms. We have seen that according to QGD, magnetic fields are made of polarized preonic field. Since the momentum of magnetic fields is proportional to the preonic density, then preonic waves would cause fluctuations in a reference magnetic field. So if the signals detected by LIGO-VIRGO are polarized , then fluctuations in the momentum of a reference magnetic field should mirror exactly the signals detected by LIGO-VIRGO observatories. Such fluctuations in the momentum of a reference magnetic field is a prediction specific to QGD.
Note: preonic waves are distributions of latex preon{{s}^{\left( + \right)}}&bg=181818&fg=ffffff$ similar to electromagnetic waves which are distributions of photons.
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