ON THE ELECTRODYNAMICS
OF
SPONTANEOUS
NON-EXISTENCE
Zefferon
PART 1 – CONTROLLED DISTORTION OF SPACE-TIME BY PHASED ANNIHILATIONS
Large celestial bodies, such as our sun, distort space-time. Physicists say that space-time is curved near such objects. But space-time is only curved for bodies that are moving relative to one another. For two large bodies, such as suns, that if they were stationary to one another, space-time would not be curved between them. It would be indensified, and the gradient of the indensity would be different for each unique distance of separation between them, reaching maximum when they touched. So it is for suns, so it is for particles, so it is for mass.
Here is a thought experiment. Physicists have estimated that when a particle of matter and a particle of antimatter collide, they annihilate each other in less than a billionth of a billionth of a billionth of a second. What then of a star? If a star, such as our sun, suddenly ceased to exist in a billionth of a billionth of a billionth of a second, what would happen to the space-time near that star? In the space where the star once was, there would be nothing. Utterly nothing. Not even space-time. The space-time near the sun would have to fill the void left behind by the star, and simultaneously, it would have to re-balance with the space-time slightly further out, in an infinite gradient, at the speed of light.
If the spontaneous non-existence of a star causes a propagating change in the density of space-time, what of the spontaneous non-existence of particles of matter and antimatter when they annihilate each other? In the depths of a billionth of a billionth of a billionth of a second, between the instance when the particles combine and the instance later when there is a shower of radiation and debris, what of space-time? In the depths of annihilation, there is for a moment, void. The particles of matter and antimatter make the transition from two distinct densities of space-time to an expanding gradient of many densities of space-time, some of them particles, some of them radiation – light. The particles and radiation formed are dependent upon the densities of space-time, as masses, of the particles, and the shape of the space-time of the worldlines of the particles when they collided.
When particles of matter and antimatter are collided, the results are chaotic, jumbled. The annihilation occurs haphazardly. The changing densities of space-time blither through each other in a meaningless mess, to be detected from almost all directions by instruments inside the colliders.
And what of particles of matter and antimatter that combine and annihilate each other going in essentially the same direction, at the same speed? The higher the speed, the less the uncertainty, the greater the order, the greater the symmetry. And at relativistic speeds, approaching light, the particles become essentially one, the clouds of probability condense to points. And the realm of annihilation loses its haphazardness; the transition from two separate densities of space-time to void to shower is orderly, consistent, controllable.
This, then, is the new age of the COINCIDENT-BEAM MIXER. The coincident-beam mixer is a matter-antimatter reactor which combines accelerated beams of particles and anti-particles in the same direction in a tightly phase-controlled region of space-time by mixing the particle beams with coherent radiation from masers or lasers, and focusing the beams with the same superconducting magnets currently used with colliders. By mixing the particle beams with coherent light, the random spread of particles can be grouped so that the annihilations can be phase-controlled to occur in lock-step. Because the particles are near the speed of light, each annihilation is “stretched” or elongated relative to the axis of the combining beams. By phasing the annihilations to occur sequentially, so that they “stack up”, one slightly behind the next, a “row” of annihilations forms that blends together with each other to form a void or “bubble” in space-time, the position and size of which is held stable at one point inside the mixer. The “bubble” of void, or space-time distortion, formed by the phased and stepped annihilations is the annihilation-vacuole, and it is this vacuole which is a controlled distortion of space-time. The beams of particles and anti-particles form a current, and this current can be measured in amperes, the same as current in an electric circuit. For small quantities of particles, the beam current is on the order of pico-amps, and the a-vacuole is negligible. For beam currents above a few micro-amps, the a-vacuole becomes large enough to be measured. If the particles are electrons and positrons, the a-vacuole is too small to work with. If the particles are protons and antiprotons, the a-vacuole is much larger and easier to control.
PREDICITION:
For proton-antiproton beam currents above 10 micro-amps, if a laser is aimed across the axis of the beams at a 45-degree angle a few micrometers outside the center of the a-vacuole, THE LASER BEAM WILL BE BENT BY THE DISTORTED SPACE-TIME OF THE A-VACUOLE ---
THE ZEFFERON EFFECT.
As the size of the particles and the current of the particle beams are increased, there will be a proportional increase in the size and strength of the a-vacuole. As the type of particles used goes from proton-antiproton through hydrogen-antihydrogen up the periodic table to uranium-antiuranium, the size and strength of the a-vacuole goes from sub-atomic through microscopic to macroscopic. For currents of micrograms of mass per second, the a-vacuole is measurable. For currents of milligrams of mass per second, the a-vacuole can be FELT. For currents above grams of mass per second, the a-vacuole can MOVE OBJECTS.