We know that, according to the theory of the complex relativity, a particle comprises two parts inseparable from each another. The particle possesses what we can, with great approximation, define a “body” which is the part of the whole situated in the “real” ( visible universe ) and which is in effect reduced to a point that we will call P, on the other hand this point P is a “track “in the space of real of a region which is the “head ” of the particle, and which extends in a space called “imaginary “, distinct from the space of real; we shall call M the head of the particle. The particle is thus formed, in its entirety, by a head M and a body M point P, which is the “track” in the space of the real of the “head ” M. The part of imaginary is the most important part of the particle, because it is there that the phenomena of memory and consciousness go to situate.
Then the particle is individually equipped with a “look ” on its outside world. The mechanism of this “look ” is called ” psi wave “. It is the waving aspect of each particle. The mechanism of this look ” psi wave ” is the following: a neutrino rotates constantly at the speed of light in the head “M”; in the same time this head is in continuing radial pulsation; in such a way that the movement of the neutrino is double : it consists, at a time , in moving ” straight ahead ” in the head “M” , and to have at the same time a movement of radial pulsation perpendicularly to this shift. The movement ( periodic and quantized ) created, in the real space ( external Universe) that surrounds the particle, a wave that propagates a psi phase at infinite speed and in a spherical mode all around the particle, meeting ” instantly, ” the whole of the visible world outside, no matter how far this outside world can be situated. The psi wave is a wave which is well known from a mathematical point of view, and the initial conditions are characterized with precise values of the ( electromagnetic ), a total of sixteen sizes.
But even if this is a tiny part of the great universe, we really have to have someone there to contemplate, and to draw conclusions about the behavior of the particle with the situation that the particle will discover on his outside world. It ‘s the second phase of the “look” : there is someone who is able to contemplate what the gaze of the particle has perceived of the outside world. And that someone is the particle itself, what we might call the spirit of the particle. The “mechanics” of this particle is the following: the psi wave extends into the ” head ” of the particle, in the form of a wave that the complex relativity called sigma field, which is of the same nature of psi wave (electromagnetic) but that, mathematically, is described by what Louis de Broglie has designated in the 1940s, such as fusion of the particles to spin. The sigma field is more complicated than a psi wave. This is composed of a single neutrino, while the sigma field is composed of two neutrinos around each other at a well defined frequency, that of the photon.
Since the living memory is cumulative, and not as a substitute as in a computer, we need the merging takes place in even numbers and multiples of two. So the particle will present to the sigma field of his memory what it perceives through its psi wave and will do so by matching the psi wave of its vision to the exterior sigma field of its memory. This is not a difficult task and it is also immediate. We have already said, psi wave and sigma field have the same mathematical nature. Let’s say that the psi wave is the look of the particle which, as we have seen, is produced by a neutrino that has a double longitudinal and radial motion in the head of the particle, whereas the sigma field gets more and more complex from an elementary state (called spin-1 ) produced by two neutrinos that run in the “head” of the particle and that they, even they, have a double longitudinal and radial movement in this head. But these two neutrinos, at the same time in which they turn the movement, also revolve around each other at a well defined frequency, what it does say that the sigma field is composed of photons ( precisely represented in Louis de Broglie’s theory of fusion as two neutrinos that revolve around each other at the frequency of the photon). This movement of additional rotation will automatically appear in the theory of light given by the de Broglie: this light is the product of two neutrinos ( and not just one, as the psi wave) that fuse their movements and which have at the same time a global longitudinal and radial movement, while turning around each other.
What is important is to see how the psi “gaze” and the sigma memory of the particle are coupled to each other, and can be mathematically coupled to each other: both have the same mathematical structure, which is that of an electromagnetic fusion field (in the sense of de Broglie). So we see the psi wave which allows us to contemplate the world outside of the particle, at every moment, and, at this very moment (what classical physics doesn’t take into account ) to contemplate a real inner world of the particle, the of its memory in the present moment: the resulting process is twofold: placing the psi wave of the present moment as part of the memory of the particle, the latter gives a kind of relief to this psi wave in relation to the psi waves of passed instants, namely relying this psi wave to the present instant in relation to the memory of the particle;
Furthermore, the situation of the outside world is directly compared to the memory and allow the particle to make a choice that will adopt the behavior at that moment, taking into account an infinite number of possible behaviors (as well as a multitude of impossible behaviors, that’s to say prohibited by the laws of physics). it is nevertheless true, and quantum mechanics told us that all the choices referred to it have not the same probability: thus, if the particle has to pass through one of the two small closely spaced holes set on its passage (Young holes), it has a greater chance of going to hit a screen placed behind the holes closer to the center of this screen, rather than towards the periphery. An electron passing through two close holes, proves, by the way , the wave character of the electrons. If the electrons choose their behavior according to the external situation (the two holes of Young) their memory informs them of the physical laws. All the electrons participating in this experiment are expected the identical behavior, that is, for example they hit the part of the screen that appears the most probable, that is to say the center of the screen. But some, not many , will hit the screen away from the center, and others, still less numerous travel along a perpendicular direction to and do not strike the screen at all. So why the electrons do not seem to have similar memories, if not identical , and do not take all the same behavior?
It is understandable that Einstein, in 1930, opposed the introduction of the concept of probability in physics. “God does not play dice” stated sometimes, to express his refusal to assign a probability to an object apparently without initiative, such as an electron. The will and will not call into play the memory particle. Let’s see how it might work. First, we need a memory duplication. The consciousness and memory capacity increasing, is accompanied, without the need for any energy (this is the main point) to an increase of the sigma field: It is therefore necessary that something in the energy of the sigma field decreases to compensate for the growth of consciousness. This is the temperature associated with the sigma field (the temperature of the black body of this field) that decreases when the particle consciousness increases.
So when the particle has filled those which preliminarily were its memory locations, it assists simultaneously (and without voluntarily intervening) to a decrease in temperature of its sigma field. The energy of the particle itself does not change globally, its consciousness increases ( with the number of its memory locations ), while its black body temperature decreases. This is a confirmation of the fact that we must not weigh the consciousness as a material thing. As the particle itself does not have energy of its own (can not change its specific mass ) may however change the memory (consciousness ) of another particle. It proceeds as follows: the particle which we will call A is to be placed side by side on the particle B on which it wants to act to make the memory of this particle B identical to their own ( that of the particle A). A will set close to B ” head – feet “, so that both form what in physics is called ” a system of zero total spin”. To obtain this result it is necessary that the two spins of the particles A and B are ” antiparallel “, that’s to say parallel and of opposite direction. It is difficult to keep the particles A and B lasting long in this position, because the molecular agitation tends to arrange them in any direction. But it is possible if it is used the space outside of reality: thus, in a strong magnetic field , the two particles A and B tend to arrange themselves with their parallel and antiparallel spins. Therefore the thing is not impossible, and that without “internal” energy, but a space that has a special configuration.
So our two particles A and B can form a system of total zero spin. They may proceed side by side to a “memory” exchange. Mathematically they form, as we have said, what is called “a system of zero spin,” of which Louis de Broglie has provided detailed equations when he systematically studied the the particles “fusions”, and regardless of the fact that in 1930 this was of no use. In these equations he has shown that the system of zero spin responds to some equations which specify that the fusion of two particles are identified with “a single one”, they are really in a state of fusion. In such a state the two particles A and B have common initial conditions and become virtually a single particle. And when afterwards they separate and, if you call A and B the state of their memory before the “memory-sharing”, they have, after their separation, both the memory A + B.