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Wave Theory and Photons
(Continued — Page 18)

This inspires us to look at the atom’s two loops, which include one proton (energetic) loop and one neutron (magnetic) loop. When an atom is split, each half is left with three main elements: one loop and half of each of the two paths. These three energetic elements may be quarks (picture below). The energetic movement of the elements oppose one another (picture, right). These may be quarks and anti-quarks. This small illustration resembles a new star formation or the sundering of atoms in a bubble chamber. Quarks cannot exist alone for long periods because they lack stability, so they immediately create wave formations. The speed of photons is similar to that of new star formations.

Since the atom is in a low energy phase, its two loops are very close to one another (perpendicular).

Every galaxy has two visible paths or arms on which energy travels in opposite directions. One arm serves as an entrance to the swirl and the other as an exit. The circulation and direction of energetic matter in the two paths-arms are also opposed to each other.

In the following illustration, we see that the tips of galactic waves are cut off and “hide” in their surroundings or within the dark space (dark matter). It is this powerful mysterious force that keeps the galactic formation in place.

Just as matter (energy) cannot hide but transfers to another form, shining matter must transfer to a form that is invisible to us. Both forms are created from the same matter; however, shining matter has a visible formation and dark matter is invisible. Shining matter and dark matter maintain stable proportions in every phase of the wave. Energetic matter does not disappear (according to the rules of energetic matter conservation). The universe is filled with dark matter. Matter can only be energetic matter. Because energetic matter creates only two loops, dark (invisible) matter is probably the same energetic matter in a high phase, with energetic formations suitable to each phase. The dark matter merges with the arms of galaxies and connects the galaxies to each other. Therefore, dark matter together with all other energetic formationsmust have an important function.

Galaxies are energetic formations; they are clearly visible with well-defined shining rings. Their two spiral arms that disappear into dark matter indicate that they must be connected in some way to dark space and its structure as well as to adjacent perpendicular loops.

Since the distances between galaxies are stable, if the space between them consists only of dark matter, we may assume that it is very rigid and keeps them in their energetic paths, like galactic ring formations. Intergalactic dark matter may be an energetic formation that is invisible to us, which by virute of its high energy levels creates huge rings (swirls) that connect galaxies. Because this dark matter has a rigid formation, it should transfer information (signals or energetic exchanges) almost instantly, like vibrations. These properties may make formations of dark matter a relevant factor in Einstein’s wormhole idea.

Although loops are rigid formations, photons and atoms are elastic. Energetic paths between loops can be stretched or contracted by adding or withdrawing energy. By adding energy to a photon, we enlarge the distance between loops, stretch energetic paths, and change the position of the loops in respect to each other. The vertical (magnetic) loop gradually moves into a transverse position because it has become more energetic.

A photon (wave) is active energetic matter. Its propagation is active; only the direction of light is passive and depends on its surroundings. An individual photon always moves with its magnetic loop in a vertical position. Since the connection between energetic loops in a light stream is so strong, when light hits upon a surface it does not disperse, but reflects from the surface into a path with an appropriate angle.

Due to the fact that magnetic loops always face a photon’s propagation, movement during the Michelson-Morley experiment always travels at the constant speed of light. The limit of wave-particle propagation is 320,000 km/sec. Since dark matter is a high-energy formation, it apparently does not permit wave particles to exceed the velocity of light.

To reach higher speeds, energetic matter probably undergoes a phase transition. Dark matter in a higher phase has other behaviors. The speed of light can only be reached in wave-particle phase formations (photons). For this reason, a photon cannot transform to a higher phase and velocity. Furthermore, since a photon has only one phase, it will appear as well as decay in the same life cycle.

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Dr. Chaim Tejman, Copyright© 2001. All rights reserved.