Quantum Theory of Gravity - "QTG"

19. Ghost neutrinos.

                It is known that matter exchanges energy as if it were a particle and propagates it as if it were a wave. Any dispersed particle (not connected to an atom) will oscillate around its own local time reference, giving it wave characteristics where the amplitude of the oscillation (which, as was seen in the Temporal Uncertainty Principle, is between the past and the future) will be proportional to that which the particle possessed when it was part of an atom, depending on the energy used in its dispersal. Particles may be accelerated by collision or when subject to elevated potentials, thus experiencing an increase in their total energy.

                The more energy a particle has, the greater will be its tendency to oscillate around the local time reference. For this reason, dispersed particles with very high energy (figure 8) will have a higher frequency and consequently shorter wavelength.

As shown in chapter 6 the intensity of a gravitational field modifies the amplitude of the temporal wave of the stabilized atomic components within it. It is therefore possible that some other phenomenon may modify the temporal oscillation amplitude of neutrinos. We know that they originate in nuclear fusion reactions, where two hydrogen atoms fuse to form a helium atom. During the reaction, the local time references of the atomic nuclei are undefined and there is a small period of violent temporal instability until the new nucleus has defined itself: this is the source of neutrinos, which possess deformed temporal waves resulting from this instability (see figure 9).

Next Chapter:   20. The Neutrons stars.