Cascading Densities in Orgone Matrix Material

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Cascading Charge Density, Toroids and the ‘Orgone Laser’ Part 2
By Jon Logan

In Previous articles, I have introduced the concept of using Cascading Densities of Orgone Matrix Material as a means of controlling the direction of energy flow within a device, and as a means of creating orgone devices that are at least partially self-stimulating.

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Since Orgone is negentropic, a smaller, weaker potential will generally be attracted to and absorbed by a larger, stronger potential. With respect orgone / scalar engineering, this means that higher densities of orgone matrix material will tend to draw on (rather than feed into) adjacent castings of lower density orgone matrix material. In addition to being useful as a means of controlling the directional flow of energy by arranging the density layers accordingly, castings of higher density which would ordinarily require external stimulation to become active may be at least partially stimulated by the negentropic flow induced when a casting of lower density is placed in contact with them.

While the different densities store different amounts of Scalar / Orgone charge density, the sizes of the casting in proportion to each other is also a significant factor. If the two castings are of equal volume, then the flow will generally go towards the higher density casting. However, it is possible to make the lower density casting large enough volumetrically to have a larger total energy capacity than the higher density casting. If this is the case, then the flow of energy will generally go towards the casting with the largest overall energy storage capacity. Each of the castings forms a region delineated by an energy membrane at its outer surface. This energy membrane causes degrees of separation between the energy field of the casting, and whatever happens to be adjacent the casting. Capacitance is formed between such regions and inside them also. Cascading density theory, as applied to orgone matrix material, works by virtue of the mean energy storage capacity of one of these regions in proportion to another. So long as the proportionate volumetric sizes of the castings are within working parameters, the charge density may be easily controlled by controlling the density of the orgone matrix material. This is the basic concept which I refer to as cascading densities or CaDens for short.

There are many other factors which influence subtle energy fields, these fields being actually complex nested fields of many different spectra, superimposed and dovetailed. Another factor which exhibits marked influence of the energy field characteristics of an object, including but not limited to a casting made of Ergonite™, Orgonite™, Orgontech™, or other similar Orgone Matrix Materials – is the geometric shape of the object.

A torus, whether rounded on all surfaces like a donut or truncated like a short section of pipe, imparts its own characteristics to the energy which passes through it. IMO, these characteristics are rather similar whether the energy that passes through it be Orgono – Scalar, Electro-Magnetic, Optical, Thermal, or of other form.

A torus shape acts to do two things of which I have taken note: it polarizes and focuses energy at the hole in the center of the torus; it causes this focused energy at the hole in the center of the torus to spin, and thereby be eventually ejected in a direction roughly parallel to the axis of torus, and at a tangent to the plane of the torus. It creates two vortices, joined at the small end like am hourglass.

A pinhole lens, which focuses light, is an example IMO of the vorticular condensing and discharge effect described above, as are most electromagnets. The pinhole lens uses this vorticular action to focus the light emitted by a large area into a beam small enough to pass through the pinhole, but the picture which comes out the other side is of the whole area, and not only a small spot the same size as the pinhole. This is the action of one of the vortices generated by the pinhole. The action of the other vortex generated by the torus / pinhole expands the light again and projects an image on a suitable surface.

Here is a simpler example. Most people are aware that if a person blows two smoke rings in short succession, either from their mouth or via a smoke ring cannon, so long as they two rings have the same trajectory, the second smoke ring will overtake the first by passing through it. This is an example of how the torus acts as a lens, and an amplifier. It (the first smoke ring) acts as a lens in that it compresses the second smoke ring enough to make it fit through the hole in its center. And it acts as an amplifier, in this case amplifying the velocity of the second smoke ring so that it overtakes the first smoke ring. In reality, the torus can act to amplify the energy put through hit like speeding up the smoke ring) or damp the energy put through it (evinced by the fact that the pinhole lens needs a really bright light in order to work, and the image produces comprises less lumens that the original).

When Orgone Matrix Material of very high density is cast into a ring or torus shape, it becomes more active even without external stimulation than if cast in a disk of the same diameter and thickness. When the CaDens concept is applied to the shape of the torus, the effects can be quite dramatic. If the CaDens layers are arranged like 3 concentric pipes made of orgone matrix material, with the highest density at the center, then each layer acts to amplify the one next to it. We get a field with logarithmic gain in Scalar charge density as we approach the center of the torus.

The charge density at the center can be raised further by covering the inner our outer (or both) edges of the ring with ORAC layering. Trapped air spaces in the ORAC layering act as waveguides for the scalar fields if of suitable shape, causing increased polarization of the field when regular corrugated cardboard is used as the dielectric in the ORAC. If this is the method used, then it is important that the enclosed channels in the corrugated cardboard be parallel to each other and axis of the torus. Regardless of whether the ORAC has thick layers of dielectric with trapped air spaces (reducing its conventional electrical capacitance value) or thin layers of dielectric without the large trapped air spaces (increasing its conventional electrical capacitance), the ORAC layers act to radically increase the charge density of the scalar field to which the torus is exposed.

In Fact, CaDens layering is basically the creation of a linear ORAC using layers of differing orgone matrix material density, rather than alternating layers of conductors and dielectric as in the ‘normal’ ORAC.

So, in short, I think that the torus shape, incorporated with ORAC layering, can produce in Orgone / Scalar fields some effects to similar to those produced by the flash coil and end mirroring in conventional crystal or gas lasers.

Getting back to the point about energy membranes, and capacitance, I could say that in a conventional laser, like the original ruby laser, the ruby rod is charged up like a light ‘capacitor’ until it can’t hold any more charge, and then it discharges, releasing in a brief time period the energy it has stored up. In the original ruby laser, they had a clear ruby rod, wrapped with a flash coil and mirrored on both end. The output end of the laser had a lighter mirror coating that the bottom end. So, in order to get it to fire, they would ‘charge it up’ with the flash coil around the sides of the rod, and get it to fire by directing another strong pulse of light into the bottom end. This flash of light pumped into the bottom end would be bounced back and forth between the two mirrored ends until it burst out of the end with less thick mirror coating.

Bearing this in mind, I have begun coating the exposed quartz emitter surfaces of some devices with a thin coating of plastic resin, mixed with various minerals / substances which have a relatively high spectral resonance. A simple recipe to use for this ‘doping mixture’ would be 1 part catalyzed resin, 1 part powdered selenite, and a small amount of refined Monoatomic elements or natural ore / soil powder with a high monoatomic content. You may also need to add another organic powder to thicken the mixture enough to adhere to the quartz surface well, and the quartz should be thoroughly cleaned before application. You could use household cake flour for this thickening agent if needed, or other powdered herbs. It should be born in mind that whatever elements / molecules are used in the doping mixture will act to some degree as filters for the energy emitted by the device. This coating is applied to all but a small area of the exposed quartz emitter surface.

Selenite is used not only berceuse it has energetic properties which are useful for this application, but also because it has a crystalline structure that is relatively long and narrow. Therefore, when you reduce selenite to a powder, the individual grains of powder will actually be fibers and not grains, ie. They will be short broken lengths of individual selenite fibers, much longer axially than their diameter. When the mixture is applied to the quartz surface, it will then be coated with a layer of crystalline fibers which lay flat against the surface of the quartz, in a random arrangement. So, as the energy is emitted by the quartz, it is intercepted by a thin layer which diverts a significant portion of energy 90 degrees and causes it to flow laterally over the surface of the quartz, rather than being emitted at a tangent to the surface of the quartz. This energy is then sent back into the quartz core as feedback.

The end result is that most of the energy that would be emitted from the quartz is instead diverted first by ninety degrees, to flow for a distance in a highly charged field, and then be absorbed back into the quartz. This acts like a positive feedback loop, building a much higher charge of energy in the quartz. This effect is IMO similar to the effect of the mirror coating on the ends of a conventional laser crystal. It causes the Scalar / Orgone fields to bounce around back and forth inside the quartz, increasing the resonance and charge state of the quartz until finally it bursts out at a much higher energy level than it entered.

Of course, in an actual laser there is a mirror coating over the whole surface (I think), but in this device I have left a small area of the quartz tip bare. The exact size and shape of this small area of bare quartz are important, because they define it’s characteristics as a lens. If the area is too small, then the device kind of ‘plugs up’. And if it is too large, then the net scalar charge density gain is rather low. As for the shape, the exterior profile of the bare area defines the shape of the energy stream emitted by the quartz. In short, the diameter of the bare area is the lens aperture of the focused scalar discharge.

If the other (bottom) end of the quartz is enclosed within a metallic covering or a casting of very high density orgone matrix material, again with a small hole in the covering, the effects of what would be the heavily mirrored end of the ruby laser crystal are mimicked. This configuration will produce a stream of scalar / orgone energy from the bare spot on the quart with or without stimulation by external power. However, if it is stimulated by a mobius coil, sound waves, light, or some combination of the above, it begins to emit a much more focused stream of energy. Excitation by these methods, (including, ironically enough, excitation by a small laser) mimics the effects of the strong light pulse which is directed into the base of a conventional crystal laser.

Thus far, the beam produced by these devices is not coherent, but rather focused into a sharply directional cone of varying angle, depending on the lens aperture of the bare spot, along with other geometry incidental to the specific device being built. Perhaps in future generations, an optical quartz lens could be added or integrated with the quartz core in order to produce more coherencies.

While the result as applied to small hand-held devices like the euphemistically named ‘Succor Punch” has been impressive, the best results thus far have been obtained by using man-made flawless quartz, and either sintered quartz or lab quartz. Though it may rub some the wrong way (and I love natural crystals, don’t get me wrong), the optical clarity of the man-made quartz is far superior to that of most natural specimens. The less internal refraction in the quartz core, the less energy waste and less signal distortion. I plan to work more with flawless quartz in the future, as well as with natural crystals.

When the above techniques were applied to a generator made with 110 mm quartz sphere, and where the lens aperture was apx. 80mm, and where the base of the unit was left open to the air and therefore optically conductive throughout, the result was the most powerful generator I have built to date, in terms of size to power. The emitted cone / beam is in the ballpark of 20 to 30 degrees as near as I can tell, and appears to change slightly with different frequencies. Driving the coils with a negative offset DC pulse signal produces the most comfortable energy, while a positive DC offset is slightly less comfortable but more energetic. Regardless of signal polarity, frequency of signal is a larger determinative factor of the quality of the energy emitted.

Following up on the feedback from a few persons including R. Strono and L. White, I began experimenting with shooting a small laser (from a red laser pointer) through the unit, while it was powered up and running. The effects of exposing a laser beam to a scalar field are almost as interesting as the scalar field itself, but that’s another article. In short, the laser beam appears to both pick up and carry the scalar charge. It also vastly increases the resonant energy response of the whole circuit to which the laser / scalar generator is attached. It also appeared to me that the brightness of a projected laser dot on a movie screen rhythmically changed in response to the sweep signal being put through the coil. The effect was very subtle, and may be a side effect my biological response to the scalar fields, as suggested by L. White. More testing will have to be done on this matter, once I have had a chance to build or buy some sensitive light measurement gear.

R. Strono reported that when his early model mobius coil generator was placed inside an ORAC, the ORAC acted to damp the scalar fields significantly so that they were not perceptible in the rest of his house. This was as expected from my perspective, as I have observed that ORAC layering does indeed interfere with scalar waves, though not completely. Unlike normal faraday cages, ORAC layering is basically a series of concentric Faraday cages, which are capacitively - coupled, and in fact form a compound capacitor. The more capacitance the ORAC has, the more energy it can suck out of a passing scalar wave, thereby weakening the scalar wave. More on this in another article also.

What was unexpected was that when R. Strono directed a laser into the crystal of the generator inside his ORAC, the energy field was dramatically changed in such a way that the ORAC stopped blocking the scalar waves and the field was again perceptible throughout the house.

L. White reported that the anomalous cooling effects of his setup (article in the last issue of this ezine) were more or less pronounced under different conditions, but seemed to depend very much on the quartz in his setup being excited both by laser and the scalar field. He theorized that the laser, in conjunction with the scalar fields, was inducing feedback into the circuit.

In both cases, it would seem that the combination of coherent light with charged scalar fields causes the effects of the charged scalar field to increase dramatically, and this is a subject worthy IMO of more exploration.

As of this point, the easiest way to get a scalar laser is to make a toroidal region with a high scalar charge potential, and shoot a low-power laser through it. More info will be presented as it becomes available.

THE DESIGN AND THEORY DEPICTED ON THIS PAGE IS ORIGINAL, AND WAS DEVELOPED BY JON LOGAN IN COLLABORATION WITH LUMIN WHITE.

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