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and the observer. The most amazing is that the result is produced at the moment of observation. It does not exist before! In other words, no microscopic phenomenon exists intrinsically outside the observation! This seems difficult to digest, for we are used to thinking that the world keeps on turning even without us. Quantum decoherence is based on this simple hypothesis. It means that non-observed phenom- ena do not exist or even that there may be other phenomena than the ones we have to measure. This has important consequences: matter can quite simply disappear in the atomic or subatomic state without leav- ing visible traces in our so-called material world, except for a structur- ing effect on the macroscopic scale at the moment of interaction. Matter exists only because “‘it is used”’! The whole of quantum mechanics is built on a simple principle: state functions assign “discrete” states (discontinuous) to the particles. This is the very definition of quantum states. Has anyone ever explained these discontinuities? No! What happens between two quan- tum states that induce spatial changes at the same time? No one knows! This is where sometimes instantaneous dematerialization of matter takes place. We then understand in a flash of genius that matter exists only because time goes by slowly! When we compare this apparent mystery with our temporary inabil- ity to see beyond 10°" seconds converted into wavelengths, it is easy to deduce that matter becomes invisible. Imagine for an instant that we live in a stroboscopic world of which the intervals of material non-exis- tence are so short that it is impossible to see them. Everything will seem continuous to us. And this is in fact the case. It is the principle of film and its twenty-four images per second. Now imagine that these strobo- scopic intervals of immateriality increase considerably to the point of perceiving a tangible rift between two situations. We then speak of paranormal phenomena because we do not understand what links these two events. Thus is matter. It is important to understand what 1 wos . . ™ er . happens between two quantum states or events. The undulating nature of matter preserves the memory of its properties because the state of a particle is defined by a frequency, while entanglement causes the parti- cles to form aggregates. We will see further on how the coherence of atomic structures is kept intact even in a dematerialized state. Demate- rialization is nothing other than a passage from one spatial scale to an even smaller one. It is interesting to note that light, the frequency of which lies between 4 and 7.5 10'*Hz, is at the outer limit of what we can currently see of the infinitely small. However, I am pressing on rather boldly with my reflections that lead towards absolute relativity. 48 The Science of Extraterrestrials: UFOs Explained at Last * Eric Julien