FIGURE 23-2: A 3D drawing of the magnet/coil/flashtube, showing the resulting PE "beam" in purple:
The Xenon flashtube is shown in yellow, and in this position, seemed to give the strongest beam, under all conditions of modulation. Many variations of gas tube orientation, and also more than one tube were tried, at this new "pole face".
A set of bucking magnets makes a new structure with respect to the fields. It essentially combines two of the poles, and makes a "Tripole", so the assembly only has three poles..And these poles are radically different. Two are at what were the normal pole faces of the magnets, on the outside of the assembly, and the other single pole is now at the interface between the two magnets, and extends in a radial fashion. See images below:
You can clearly see that the field of a bucking magnet pair is unusual, and makes a much greater assymetry of the fields, than does a simple dipole. this is evidenced by the flux density at the radial pole being at 1750 gauss, and at the axial poles only about 300 gauss. In addition, the center little (spherical) "null zone" at the magnet interface, the flux density drops to almost 0.
However, this does not mean that this region is the same as the ambient space or aether condition. In fact it implies that this region is under a great deal of stress - as this region is normally at a much higher flux density, if separated from the other magnet. It is like having a tug of war - or a tensioned cable - the forces from opposite directions are very large, but they are equal and opposite, so the net force is almost zero. But in the example of a tug of war in a cable, or in this case the aether (space, ZPE, etc.) is under tremendous strain.
In the case of the "scalarbeamer", or all the other beamers, as first outlined in the patent referred to in a previous chapter - this tensioning of the aether, and an assymetry being applied can allow for some interesting effects.(I sometimes call this tensioning - "aether stretch" - and it could be either a tension, or compression, compared to the ambient aether condition)
Essentially this bucking magnet pair, when a coil is added, becomes a "beamer" in the same sense as the "quad" beamer outlined in the Patent, and the "Hex" beamer that I built. The field patterns of the modulated two pole device, are the same as those found in other beamers.
The device outlined above in the photos, which I am calling "scalarbeamer1" was fabricated, and the modulation applied with a 6V lantern battery, the Radio Shack high speed motor, and a 25 ohm rheostat in series with the motor. With the modulation current resulting from this "noisy" motor, run through the coil wound on the bucking magnet pair, I could feel an emanation from the magnet interfaces, just as Bedini suggested. This emanation feels exactly like that from a mild, or moderate intensity PE beam!
I then placed two xenon flashtubes, at this interface location, where the beam was felt to emanate from, and the emanation got extremely powerful - and now had the characteristics of a xenon beam.
It was very powerful, and there were areas at certain distances from the device, that the feeling was stronger than others, much like how a cell phone or FM radio will respond to nodes in reception - as you move about if the signal is low.
In addition, varying the motor's speed up and down, resulted in a noticeable change in the feeling in the hand. This feeling was much stronger than with only the gas tubes at this magnet interface, and with the modulation turned off. And also there were several regions of the differing motor speeds/freqs, that gave much larger effects - these speed/freq "nodes" were very small, and only noticeable if the speed was very slowly changed through these regions.
This feeling actually became alarming after 5 minutes or so of experimenting. It resulted in my entire arm and hand feeling numb, as if I had been using a hammer drill to drill holes in concrete for 20 minutes. And this numbness lasted for about an hour after the exposure. (I have noticed this numb feeling, and a powerful laser like PE beam from another device, that is a "polybeamer" with 13 radial magnets, all bucking, and two axial, donut magnets, very large in size, and one of these magnets mechanically vibrated to add modulation - and this config will be further explored and detailed later - suffice to say it is inspired by some of the Hamel drum concepts)
Also, the whole body effect of exposure to this beam (did not place anything more than my hand in the actual beam, but a whole body effect always happens from any PE beam to date - there is an omnidirectional nature to the emanation, and the magnetic fields only focus, or collimate some of it, and it is absorbed by any body part, and stored or diffused through the body) was quite strong, and not entirely the same as a normal exposure to xenon. The same extra boost of energy, is felt, but with OD of this emanation, in me seemed to induce the opposite of an OD of other xenon beams.
In normal xenon beams, the OD effect is unnerving, and like a buzzing in your head, and makes you sleepy, like a sedative. But with this modulated xenon beam, the OD was stimulating, and the effect was like having just had two or three cups of strong cappuccino, or espresso.
I also found that our infant prototype PE detector, using a fine tungsten filament, responded in a distinct and repeatable way to this beam, numerous times - and the readings were well outside the normal background fluctuation. (more on this detector method later)
After I reported these findings to another researcher, he went out and got the same motor, from another Radio shack, and made another "scalarbeamer" using much smaller magnets, and only 40 turns of #30 magnet wire.
He reported that his also made a strong PE beam, with xenon flashtube. And that his tungsten detector reacted in the same manner as did mine, repeatedly.
However, he found that his OD was back to the normal sedative effect - but an almost alarming one - he slept so soundly the night of the first experiments, that his wife had trouble waking him in the morning, and was alarmed at how difficult it was to wake him.
I subsequently tried some variations - I applied a mechanical load to the motor shaft, and this resulted in an increase in the current going to the coil, from approx 200mA up to over 1 amp. (but I did not at first do these loading tests for very long - I was using my fingers to slow the shaft, and would rapidly burn my fingers) But I did notice that the loading altered the beam.
In addition, I noticed that there seemed to be a PE emanation from the motor housing, and the shaft! - so I suspect there may some kind of "cold current" or feedback of the PE through the electrical circuit. (the PE has been shown to be carried, or conducted, by electrical conductors) (and the motor is a permanent magnet motor, with open air in and surrounding it, and air has 1% argon, and the brushes in my motor could be seen to be arcing at any power level - plasma)
Later, My associate informed me that his motor was not visibly arcing, and was operating at a much higher current level, at a no load condition. So I got another identical motor from Radio Shack - and it was also at a higher current level with no load, and no brush sparking. I intended to use this second motor to place a controlled load on the first motor, by mechanically coupling them together, and making the second one a generator, and placing another rheostat on it's output to vary the load in a repeatable manner.
I did this, and connected the generator output to the modulator coil, and could get 1.5 to 2 amps - but at a much lower motor/generator speed - and the PE beam was not as intense as with the one motor set up. And the OD from this high current lower speed modulation - was extremely sedating - I fell asleep on the couch afterwards, and slept all that day, night, and part of the next. (Not typical of simple xenon exposure - this depth and level of sleep is much more than other OD effects)
So we are now continuing our investigations - and getting more measuring equipment - namely a good scope to see the motor " noise" and the frequency components and harmonics that the motor is applying to the coil current. As well as other configurations of this device.
FIGURE 23-6: Scalarbeamer 2 - much smaller ceramic magnets, and fewer turns of # 30 magnet wire.
NOTE: A pulsed DC would be much more asymmetrical than these AC animations. And there are likely many rich harmonics generated by the moving "spark gap" of the brush contacts, in the motor. these harmonics are superimposed on the DC pulses. The animations below are shown using a sinusoidal AC modulation to get the basic idea of how the fields move/change, and the maget fields are shown accurately, but I have amplified the coil fields by 3 times to get a readable result. (Student version of QuickField is too limited in resolution to show the low coil field in this case - so these animations are exaggerated to examine the field modulation)
ANIMATION 23-1: cross section of scalarbeamer 1, showing the two magnets, from the end view, and each is 3/8" h x 7/8" w (10mm x 22mm); and the coil is shown at the top and bottom (120 turns of #30 AWG magnet wire, wound normal to the screen)
And shown are the overall flux density, in color; and the lines of equal flux, shown at .000007 Wb between them.
ANIMATION 23-2: cross section of scalarbeamer2, showing the two smaller magnets, from the end view, and each is 4.5mm h x 19.5mm w; and the coil is shown at the top and bottom (40 turns of #30 AWG magnet wire, wound normal to the screen) (and this image is a zoomed in image compared to Animation 23-1)
And shown are the overall flux density, in color; and the lines of equal flux, shown at .000003 Wb between them.
Our thinking with respect to the mechanism of PE beams, and magnetic fields is using the idea of "aether stretch" as part of the reason why placing an inert gas in a magnetic field releases more PE (causes more unmasking of the primary points). There is also the concept of forcing motions on the gas atoms which are not their normal motions. You can clearly see in the above animations that there is both a stretch of aether (assuming magnetic field lines represent a flow of aether) - the wobble, and stretch are clearly visible. You can also see that the gas atoms could be forced into paths that are not normal for their thermal motion - if they are the least bit diamagnetic, or if some are slight ionized. (the gas tubes would be located at the regions of highest flux density and gradient represented by the yellows, oranges and reds, right next to the tripole faces)
You can also clearly see there is a linear, or scalar motion of the "magnetic null zone" at the center of the opposing magnet poles. This region is not a rest or ambient condition of the aether - even though it is at the same flux density as ambient. It is severely stressed - as mentioned above. And this null zone could conceivably create a "window" to a higher dimension - and then this back and forth motion could generate a wave of this higher dimensional breach in the aether - and could represent an artificial PE - or "scalar" wave motion. (the PE is thought to be a higher dimensional wave motion in the aether - and is natural - but this purely electromagnetic "scalar" wave might be the same kind of aetheric motion as the natural PE)
Also we have found in many other experiments that this PE can pass easily through matter, BUT is reflected, or refracted by strong field gradients - both magnetic and electric. So you can create PE "mirrors" using magnetic fields, and make them in various shapes. In this case you can see a situation where there are a set of variable mirrors alternating from a parabolic on one side, to the other side being parabolic - so you have a focusing, and collimation of the energy alternating from one direction to the other, instead of going out omnidirectionally. (these beamers do also make a strong omnidirection emanation, but there is a defintie beam on both sides of the "tripole" interface)
We also have the the oscillation of the flux density, and flux density gradients, and divergence angle - all tending to induce more momentary unmasking, and in a coherent way. (these factors are all related to beam intensity, volume, and coherence, and beam shape)