Tetragramaton
The operative nucleus of the motor and deflector Eggy’s system is an aluminum and beryllium* hollow sphere containing water vapor – a fog chamber. It is inside this chamber that the two effector systems operate: the Tetragramaton and the Gamma Scintillation Crown. These two systems, coordinated, allow us to access the metadimension.
It is the Tetragramaton that generates the holomagnetic fatal; this, in turn, will concentrate the gamma radiation on its focus. It is formed by four q Deflectors (theta deflectors) disposed in such a way as to occupy the vertexes of a regular tetrahedron inscribed on the sphere and perpendicularly orientated to the faces of that tetrahedron. Each q deflector encloses three circuits: the field circuit, the electronic injection circuit and the deflection circuit.
1. The field circuit is formed by an induction coil (a solenoid that envelops a ferrite ceramic nucleus) which generates a magnetic field orientated along its axis. The four magnetic fields generated by the four theta deflectors form the q field – the tetrafield where the fatal will be incrusted. The q field is modulated by a circular alternator whose functions we will see next.
2. The electronic injection circuit is imbedded at the base of the q deflector and, as its name suggests, injects an electron beam along the null field that constitutes the axis magnetic core of each component. This electron beam must be accelerated to overlap the resistivity of the q field. Here comes into action the circular alternator of the field modulation circuit. This alternator allows us two actions: invert the magnetic field polarization for each q deflector at our will; and rotate this variation through the four deflectors so as to maintain a counter-field positive-negative with the relation 3.1. In short, we can use the magnetic fields as a particle accelerator.
It is also the field modulation circuit that, using a function inscribed in phase with the circular alternator one, allows us the global polarity fluctuation for the relative plasma deflection (infinitesimal deflection). The definition of this function is not independent: it is associated with the function that coordinates the electronic injection circuit or cathode circuit through the use of a parameter modulator. This modulator allows us to vary the electronic flux intensity on each q deflector, so producing the hypercampic azimuth for the universal momentum or, in metacampic orbital flight, to orientate the spaceship.
3. The deflection circuit is based on a principle similar to the one used on the cathode deflection tubes of common kinescopes. It is applied upon a concentric ring placed at the extremity of the deflector. This deflector ring is built with a semiconductor material: if we apply a positive or negative tension at any point of the ring, that tension will distribute through the semiconductor proportionally to its intensity. This means that the injected electronic flux will be more or less deflected from its path according to the intensity and signal of the so induced field. Evenly distributing the tension application points, we can build a deflection crown stable and variable according to the intensity of that tension – a lens. In this way we can vary the electron beam, making it more or less convergent – or divergent.
When we activate the Tetragramaton, the first thing that happens is the ionization of the water vapor, which dissociates in ions H+ and OH-, forming a plasma. These ions dispose and orientate in space along the lines of force of the q field. Hence we get our hydroionic plasma divided in four sectors of convergent conics, rigorously equal and formed by an electron axis wrapped by hydrogenionic protons (H+); these are in turn surrounded by the negative oxydrillions (OH-). We created a tetrahedral fatal – at this point we consider that the injection electronic circuit is active and the deflection circuit at zero point; the electron beams, parallel, cross at the centre of the Tetragramaton. If now we raise the negative tension on the deflection circuit, the electrons of the injected beam will be repelled and we obtain a convergent beam – four convergent beams which allow us to regulate the angular aperture near the focus so as to define on the ionic plasma a number of iso-conics enough for orientation and capture of gamma radiation.
At this point, the enthusiastic young physician could ask: then, why don’t we use this structure to directly address the gamma radiation into the focus?
This is a simple problem as well: the structure of the Tetragramaton does not allow, by itself – without the artifice provided by the hydroionic plasma – the infinitesimal angular deflection needed to capture the gamma radiation. “Then” – yet our young physician will rebut – “what if we used, not a tetrahedral structure but, for instance, a cubic one? In this way we could orientate the fields in opposition.”
That is true; bus, in this case, the problem is that we would get a field flux that would exponentiate or nullify because of the magnetic axis alignment. The Tetragramaton has two advantages:
1. Allows a complete coordination of space with a minimum number of referentials.
2. Orientates our magnetic field axis to the absolute minimum interference.
It is true that the gamma radiation frequency is ultra-short and very high, which means, travels a quantic level very much interior to molecular level; but our aim is to define spin conics through the global field; once we get this, it is the gamma radiation modulation itself that spreads through the surrounding ionized plasma generating a quantum cascade that, once the optimum angular parameterization level is reached, reinforces the capture effect on the whole system. In fact, all these systems are in dynamic equilibrium and reach their optimum output when the hydroionic plasma stabilizes.
Note – The relative plasma cannot be obtained from particle beams; that is why we use gamma radiation, which is an electromagnetic radiation.
***
The 2001 text ends here and reveals the level that the solitary investigation of Fermanl had reached. Although a major physician could consider it as a mere fabulation replenished with errors and incongruences, I think it gathers a few interesting ideas to retain, namely:
1. Big-Bang is a hyper-singularity which expands Aleph 1 through all the multiverse dimensions, not only as an energetic extrusion in spacetime but also as an intrusion.
2. Big-Bang energetic intrusion stays in the Universe until and beyond the primordial nucleosynthesis phase, being a determinant factor for this one to happen and encompassing the stability levels along the quantum states described by the Standard Model.
3. The interior of any material particle is an infinite metafield lying between the quantic universe and a non-physics interior (and possibly extra-universal) reality: Aleph 2. The study of metafields is the object of Metadimensional Physics.
4. Metadimensional Physics provides elements for an enlarged understanding of black-holes and tunnel-effect – and coherently harmonizes all nowadays theories about the Universe.
5. The extrapolation of these theory probabilities suggests, among others, the possibility of circumventing the light speed problem, so allowing the interstellar leap and the intergalactic voyages.
These ideas are the object of Fermanl’s Physics developed since 2001 until now (2011) and approached by the texts collection Essays and Developments.
Fermanl, in Oliveira de Frades, October 5th 2011