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THIN PHYSICAL FIELDS. WHAT DO WE KNOW ABOUT THEM? SOME PROPERTIES OF DTP. FINE PHYSICAL FIELDS

THIN PHYSICAL FIELDS. WHAT DO WE KNOW ABOUT THEM?

Subtle physical field

THIN PHYSICAL FIELDS. WHAT DO WE KNOW ABOUT THEM? FINE PHYSICAL FIELDS

Mark Greene, Ph.D.

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PART 3
SOME PROPERTIES OF DFT

When carrying out experiments with DFT , their interesting properties were revealed, in a number of cases, which can not be explained today.

To begin with, there are no barriers to these fields. Both metal and dielectric are ideal conductors for them.

It is here that there is a clear line between the properties of electromagnetic fields and DFT , which confirms the non-electromagnetic nature of the latter.

Recall that an analogous property is possessed by torsion fields, the theoretical foundations of which are set forth in the well-known book by G. A. Shipov, The Theory of Physical Vacuum.

However, according to the author of this theory, torsion fields have an unlimited range, while in DFT it is limited, and depends, as it was established in the course of experiments, on the dimensions of the emitting surface of the source.

A feature of flat sources or carriers of DFT is the fact that they have holographic properties.

This property consists in the fact that a wave copy of an individual part of an object becomes the carrier of information-wave properties of the whole object.

  • This means that any, arbitrarily small part of the DFT carrier will have the same properties as the original source.

Therefore, the radiation intensity of flat sources or DFT carriers does not depend on the size (area) of the radiating surface. The change in size only leads to a change in the "radius" of the action of the field, although, in fact, the radiation propagates only in the direction perpendicular to the emitting surface of the source, and this commonly used term, when describing flat sources of DFT , turns out to be incorrect.

Another interesting feature of DFT is the property of two-sided polarization, which is observed only in the case of plane and hollow radiation sources and their information counterparts ( IA ).

In this case, in hollow radiators, a vortex field appears in the cavity, which has several other properties. So with the help of a thin tubular radiator, one can distastally influence the biologically active points ( BAT ) of the human body.

Plane radiation sources on one side observe a "positive" or, as it is also called, "dextrorotatory" polarization, corresponding to the rotation of the pendulum clockwise. On the reverse side, there is a "left-handed" polarization corresponding to the negative field. Such fields are considered positive. Imagine a thin plate in which a screw with a right-hand thread is screwed in. Depending on the location of the observer, the progress of the screw in the same direction will be determined by the different direction of its rotation. So, when screwing the screw, the observer will fix the right rotation of it, from the side of the head and left rotation from the opposite side. Thus, the radiation from a flat source is associated with screwing (unscrewing) the screw.

Unlike positive, the sources of negative fields are characterized by the presence of negative, left-handed polarization on both sides of the flat radiator. As for tubular carriers of a positive field, radiation from opposite signs is observed from the ends of the ends, while their surface is characterized by dextrorotatory, positive polarization.

An interesting phenomenon is observed in experiments with aluminum foil. As indicated above, it emits a positive DFT of very low intensity, equal to 0.09 veV . However, it can be very simply neutralized by overlapping both surfaces of the foil leaf. The same effect can be obtained by subjecting the foil to the effect of certain physical fields of a special structure, for example, vortex, by placing it in a tube of appropriate dimensions. And not only. Putting an information analogue of the source of DFT in the middle of the circle, outlined in pencil or ballpoint pen, to your surprise, you will find the complete disappearance of the field. This phenomenon can not be explained, but the mind comes the action of Indian snake charmers, circumscribing a circumference around the cobra, the boundaries of which it is unable to overcome ...

In a number of cases, the "disappeared" field can be restored.

This is achieved by affecting the EA with some kinds of mechanical loads. Such effects, in my opinion, can be explained by a phenomenon analogous to electron paramagnetic resonance ( EPR ). Without citing the essence of the latter, I hope that readers interested in this issue will get acquainted with it in the relevant scientific literature. I note only that the main role in this process is played by the geomagnetic field, and the natural integral field of the environment, both electromagnetic and non-electromagnetic. This property to some extent echoes and with the "orgone" theory of the doctor-researcher Wilhelm Reich, who created from several dozen leaves of foil, transferred cellophane, the so-called. "Orgonny battery." Such a device he used to treat his patients, not particularly delving into the essence of its true properties, and believing that such a "battery" accumulates energy from the environment.

An interesting property of DFT is their ability to add, subtract and multiply. In the same way as it is observed in direct current sources. As for the division, there is no way to do without auxiliary devices ...

For those who own a pendulum, a simple experiment is proposed.

Place a "finger" battery on the table or stand of any material with a positive pole up. Above this pole, the pendulum tests the TFP of positive polarization.

At the same time, the polarization is negative (above the plane of the support) (left rotation). Then, put a distance of 20-30 cm from the first element - the second, in the same position. In this case, the field is not detected either above the positive pole of each of the batteries, or over the stand (table) - the pendulum oscillates diagonally. The same effect can be obtained by replacing the battery with a foil leaf.

It is not difficult to understand that this effect can be obtained by measuring the voltage of two identical sources of direct current when they are connected by the same poles (negative or positive).

When the intensities of the DFT are added, the sources are connected in series, with opposite sides (with opposite polarization). When subtracting - on the contrary, by the same names.

A difficultly explainable property of DFT is their ability to change the phase, up to the inversion, when passing through the optical path. Unlike EMP , where such an effect can be observed only in the optical part of the spectrum, for PH the phase change property is not related to their frequency parameters.

This property of the DFT can be detected with conventional (non-digital) photography.

So, negatives (for example, bioobjects), for the most part, will carry a negative field, and positives - a positive one. In relation to X-ray images, a priori it can be said that the absence of optical elements will not lead to an inversion of the TFT emitted by the images.

Although this phenomenon has not been studied by anyone yet, nevertheless, it also confirms the non-electromagnetic nature of thin physical fields.

And, finally, the main property of DFT is their ability to interact, under certain conditions, with environmental objects, and especially with bioobjects, for example, with the human body. This interaction is manifested when the process of information-wave transfer of the properties of DFT sources to intermediate or final information carriers is realized. This is true for all sources of DFT , including man-made media, living bio-objects and various physical fields (electromagnetic, magnetic, etc.). For living bioobjects, this interaction can manifest itself in a change in the functional state of the organism in either direction, depending on the parameters of the TFT.

LITERATURE

  1. Patent of the Russian Federation No. 2021749 . A method for determining the type of interaction between a person and a plant.

  2. Announcements VN, Perevozchikov NF, Influence of the non-light component of laser radiation on water and aqueous solutions of organic compounds, "Reports of the International Forum on Problems of Science, Engineering and Education", vol.2, Moscow, December 4-8 2000.

  3. Garyaev PP, The Wave Genome, Http://lib.walla.ru/?a_id=6144

  4. Karafinka MM, Levitsky EF, Tereshchenko A.Yu., On the Background Radiation, Abstracts of the International Congress "Resortology, Physiotherapy, Restorative Medicine of the XXI Century", p. 96-97, Perm, 2000.

  5. Kvartalnov VV, Experimental emission of components of unknown physical nature from laser radiation, "Laser-Inform" No. 12 (219), 2001.

  6. Levitsky EF, Karafinka MM, Tereshchenko, A.Yu., The review of patents on the problem of transfer of information properties of the initial medical factors. "Questions of balneology, physiotherapy and physiotherapy", No. 3, 2000

  7. Puchko L.G. Multidimensional medicine, M., ANS, 2003

  8. Puchko, LG, Biolocation for all, M., Shark, 1996

  9. Rogozhkin V.Yu., Eniology, Rostov-on-Don, "ENIO" Publishing House, 2002

  10. Samokhin, A.V., Gotovsky Yu.V. Electropuncture diagnostics and therapy by the method of R. Foll, M., "Imedis", 1995

  11. Shipov GI, Theory of Physical Vacuum. Theory, Experiments and Technologies, Moscow: Nauka, 1997

  12. Shumov IV To the question of transferring information properties of medications used in electropuncture diagnostics and therapy according to R.Foll, homeopathy and other methods of diagnosis and treatment,
    Http://www.strannik.infomsk.ru/

  13. Etkin VA, Physical manifestations of energy-information interactions, 2005, http://zhurnal.lib.ru/e/etkin_w/

print version
Author: Mark Green, Ph.D.
PS The material is protected.
Date of publication 10.11.2006гг