Medical Therapy Devices
Shopping Basket

How Aires Neutralises EMF

Aires Products
Aires ProductsAires ProductsAires Products

BUY AIRES TECH PRODUCTS HERE


UPS requires British VAT and Customs Charges prior to delivery to you from the USA, we here can provide you with a legit refund link from HMRC for purchases over £39.

UK ENQUIRIES 01342 811350 info@miracletherapydevies.co.uk


HOW DOES AIRES TECH ACTUALLY WORK?

It's quite incredible really! It doesn't actually limit radiaton as that would reduce the efficacy of your electronic device – what it does is harmonise (neutralise) the radiation so that its less harmful to our body. 

The team in Russia have worked tirelessly perfecting this technology for the past 10 years and an investment of 20 million dollars – they truly believe our planet and most particularly us humans are at grave risk and are doing everything in their power to help mitigate with this unique and groundbreaking technology.

 

WHY BUY THIS PRODUCT?

There are sceptics out there who invalidate the harm that electromagnetic frequencies and radiation are doing to our bodies. The truth is that there is no effective way of measuring this harm.

Common sense tells us that the unfathomable volume of increased exposure to EMF/EMR can't be good for us in the same way that heightened exposure to the sun (another form or radiation) isn't good either.

One doesn't have to look far to see how corporate greed has hidden the truth about the effects on our health from their products (Tobacco, Sugar etc.) – what makes you think the tech companies are any different?

The science is quite technical and we wouldn't blame for being skeptical. We ask you this question – we don't hesitate to insure our car or home to safeguard for the unexpected? Why take the risk of not safeguarding our health for this minimal investment? These products last!

The Structure of the Aires Microprocessor

What is the main difference between the Aires microprocessor and traditionally used microprocessors?

  • any modern expert understands a processor first as a digital device with a von Neumann architecture, i.e. a device that unambiguously assumes the sequential execution of a program’s code;
  • all information within the processor is written exclusively as rigorously defined levels of memory cell polarization, which means that an external power source is an absolute requirement;
  • the processor is only a core that processes a previously created program, reading it command after command from the area of memory where the program’s code is stored and, if necessary, reading data to be processed, which was previously prepared in a form that the processor would understand. No processor can independently get data from its external environment – only through sensors and analog-to-digital converters or an input device.
 

Nanotech Microprocessor

The Aires Microprocessors are manufactured with precision using a photomasking etching process on state of the art Microlithography equipment. The etched nano-slits are made to exact width specifications of 0.4 microns and depth of 0.8 microns, more than 200 times smaller than average human hair width of 100 microns. The result is unmatched efficiency and effectiveness of the microprocessor.

nanotech
Actual photos of the Aires Microprocessor at extreme magnification

 

Circular Diffraction Lattices

The new product lineup utilized 3 distinct Microprocessors. With increased complexity of the circular diffraction lattice the effectiveness is increased.

C16
83521 circular etchings
16 fractal vectors
c16

C28
707281 circular etchings
28 fractal vectors
c28

C32
1185921 circular etchings
32 fractal vectors
c32

 

The main difficulty for such a processor in processing signals that exist in nature is the fact that the signals in nature are analog, i.e. they are uninterrupted in time, while the processors we have described can only work with discrete data. Therefore signals are transformed from their natural form into a discrete digitized form. This transformation introduces a certain level of inaccuracy to the source data. There are mathematical methods that make it possible to determine the parameters of this transformation while preserving sufficient accuracy for practical applications. However, the transformation process represents a rather long period of sequential execution. Of course, with modern high-performance processors it is extremely short, yet it is fundamentally impossible to speak of simultaneity. The higher the frequency of the processed signal, the more varied the requirements both in terms of the circuitry and traditional hardware components. In a way, these requirements define one of the barriers for existing technologies.The core of the processor developed by Aires Technologies is fundamentally different in that it is a specialized analog processor, which uses the product’s annular diffraction grating to simultaneously perform the forward and reverse Fourier transform that defines the entire sector of possible solutions. Diffraction through a grating is the decomposition of a complex signal into a continuous spectrum. It is fundamentally important that the spectrum is continuous, i.e. it completely occupies the entire frequency range. Such a transformation does not introduce any distortion (no information is lost) to the information impulse being received; it is merely a new representation of the impulse.The ideal processor is a three-dimensional harmonizing structure, but even its two-dimensional projection, which implements the forward and reverse Fourier transform, is simpler and more effective than traditional signal-processing circuits.

 

The Aires microprocessor is a silicon wafer–in common use in the microelectronics industry–superimposed with a special fractal topology that satisfies the condition:

 

The circuit is created from rings using a special algorithm in the form of a self-affine matrix.

 

To understand how the neutralizer operates, we can take advantage of well-known concepts regarding a diffraction grating, which in the simplest case is a series of evenly-separated slits in a material that is opaque to radiation.

According to the Huygens-Fresnel principle, when parallel beams of energy hit a grating with spacing b, it produces diffraction, e.g. deviation from straight-line propagation of a stream close to obstructions, such as when an electromagnetic impulse passes through an opening or a slit. Moreover, the opening or slit becomes a source of secondary waves that propagate in all directions. Because these waves are caused by the same initial wave, they are coherent or, in other words, correlated.

These figures depict the interaction of incident radiation with the surface of the Aires microprocessor.
Amplitude is on the left; phase is on the right.

 

If the slits are separated at some regular interval, then there will be regular superposition of the secondary waves, e.g. interference.

Interference causes a regular alternation of maximum and minimum intensity in the propagation of the secondary waves. The position (interval) of these extrema can be calculated using:

Because the greatest distance between maxima in the intersections of the microprocessor’s circular slits is approximately 5 µm, it works as a diffraction grating for the body’s thermal radiation, leading to interference and normalizing the radiation as it escapes.

The fractal matrix is a universal Fourier filter induces a space-time-, amplitude-frequency-, coherent transformation of electromagnetic radiation in a broad spectrum of frequencies.

These images illustrate the intensity of the electric field above an Aires microprocessor.

 

The circuit’s number of axes of fractalization varies in different products from 8 to 24. A range in the number of processor cores is also available – from 1 to 24.

Each of the “8-ray” microprocessor’s cores consists of 1,594,323 circular modules, which are specially-shaped slits, 0.5 µm wide and 1 µm deep, in the silicon wafer. Of course, the latest 24-core microprocessor, which is only used in the V.I.P. series, has roughly 40 million.

This type of slit creates a phase shift in the surface wave and acts as a high-frequency waveguide for two colliding functions.


Side View

Top View

These images illustrate the intensity of the electric field above an Aires microprocessor.

 

When the intensity of an energy stream moving along a ring reaches the threshold value, an opposing soliton is generated. As only the phases of these wave functions coincide, a stable, stationary field is created in the form of a spatial fractal structure, usually referred to as a hologram. It should be noted that within each circular segment of the circuit is a radial oscillation (center-periphery-center) in the form of radially compressing and expanding waves with a stable spectrogram. In lenticular areas of the intersection of the circular waveguides, a linearly-dashed spectrogram occurs, which is also oriented against the process’s optical axis, promoting interference with a broad range of external electromagnetic fields.

Significantly, the incoming high-amplitude energy stream’s local points of concentration in now way change the structure of the field, nor its cumulative spectrogram, indicating the extreme stability of this wave formation, which can redistribute energy through the entire system with great efficiency, without losing the existing spectral properties embodied in a large number of nested, spherical surfaces that share a single phase center with all of the wave formations.

The central area of the circuit is the most neutral. As a result, a potential difference arises between the periphery and the center. Consequently, a voltage is induced that activates the microprocessor.


Side View

Top View

This figure shows the intensity of the electric field on the surface of the Aires microprocessor.

 

Thus, the Aires microprocessor has no need for a special energy source. It draws power from external radiation. A wave impulse striking any part of the circuit is discharged to its center and automatically redistributed throughout the entire circuit through slits’ channels. Consequently, the field’s intensity is simultaneously distributed about any radius, except in the center where, due to the density of the circuit, it reaches its maximum value, while its polarization is at a minimum.

Owing to the potential difference between the center and the periphery, the charges flow from the periphery to the center. Circular surface waves occur, which also induce derivative superpositions. Where the slits intersect, the phases shift and a space-time structure in the form of a hologram is created, which has the same properties: a space-time-, amplitude-frequency-, coherent transformation of radiation with a broad frequency range and the microprocessor’s regular fractal circuitry to induce the transformation. Moreover, due to the properties of electromagnetic radiation (interference and coherence), this field reflex (hologram) is enhanced even more on the scale of the fractal matrix that generated it. The hologram turns into a spatially-extended “crystal” that can efficiently transform virtually any electromagnetic field of a diverse range and character that interacts with it into a coherent state, becoming a universal space-time-, amplitude-frequency-, coherent transformation. Up to 30% of the circuit can be destroyed without affecting its superposition.

The operating range of such a coherent transformer depends on the number of axes of fractalization, while the quality of the coherence depends on the density of its structural composition. A diagram of the interaction is radially spherical. During the experimental approval process, a memory phenomenon was observed in the electromagnetic radiation generated by objects. After prolonged contact with the Aires microprocessor, there was a rearrangement of the polarization structure of the objects’ crystalline domains. As a result, the object continued to radiate a coherently-transformed field even without direct contact with the Aires microprocessor.

Thus, without any need for a special energy source, the Aires microprocessor can use incident radiation to create its own wave superposition in the form of a space-time fractal “crystal” that can efficiently transform electromagnetic radiation it interacts with of various behavior, character, and intensity into a coherent state.

This phenomenon opens the door to the future creation of fundamentally new, previously unheard of technical devices, capable of substantially changing the nature of the manufacturing process, making it both environmentally friendly and entirely safe for humans. The Aires microprocessor is protected by several patents.

 

BACK UP TO THE TABS

How It Works

Method for Protecting Biological Objects from the Negative Influence of Technogenic Electromagnetic Radiation

Abstract

The method for protecting biological objects from the negative influence of technogenic electromagnetic (EM) radiation in a wide range of frequencies, which consists of creating around a biological object (BO) or between it and the source of technogenic EM radiation a special EM field in the form of a fractal coherent matrix, using a fractal-matrix coherent transformer to create the field. A coherent transformer is a self-affine lattice (resonator) formed from ringed topological lines, which create a slit-like raster, and is a universal Fourier transformer that harmonizes the amplitude, phase, frequency and polarization vector of external technogenic radiation and the BO’s own EM radiation. The shape of the resonator’s field is a spatial holographic matrix whose multi-level gradation is a set of annular raster lattices that are symmetric with at least the three orthogonal basis vectors X, Y, Z with a subsequent release to multidimensionality and with the formation of a spatial monostructural form with an infinite number of inherent derivative components.

The transformation of external radiation, both technogenic and the BO’s inherent radiation, occurs in accordance with the direct and inverse Fourier transform with the formation of a coherent matrix of EM wave superpositions. As a result of the process of resonant harmonization in a coherent environment of external radiations that differ in nature, the transformation of technogenic EM radiation to a form that does not conflict with the BO is achieved. Moreover, the transformation does not affect the functioning of the technical devices generating the EM radiation.

The coherent transformer can be placed on the BO, next to it, on the source of technogenic radiation, or between the BO and the source.

Description

Methods for protecting biological objects from technogenic EM radiation in a wide range of frequencies and can be used in the everyday life of each person to protect against the negative influence of surrounding technogenic radiation, including 5G mobile communication systems (3.5-28 GHz).

Before proceeding to the description of the invention, it should be noted that all methods for protecting a BO from technogenic EM radiation come down to reducing the intensity of the EM pulse, reducing the exposure time, or increasing the distance from the BO to the radiation source, which leads to inconvenience or the inability to properly use the source of EM radiation, especially when using it to transmit large amounts of information.

The task for which the claimed method is intended is to protect a biological object, in particular the human body, from the negative influence of technogenic EM radiation of a wide range of frequencies without reducing the effectiveness of the sources generating it and without imposing additional requirements on them.

In this aspect, it is most rational to change the structure of the EM pulse arising from the radiation source, transforming it into a form safe for the BO, without losing its effectiveness.

The restructuring of technogenic EM radiation in the proposed method implies changing its amplitude-frequency spectrum from an arbitrary form to a coherent form through the influence of a coherent field created by a transformer that initiates the process of counter- harmonization of amplitudes, phases, frequencies, polarization vectors, and the EM radiation incident on it.

This process, which is implemented using a coherent transformer (resonator), is proven and protected (Russian Federation Patent No. 2231137, No. 2217181, No. 2284062, No. 2308065, No. 2312384, EU patents No. 005535515-0002, No. 005535515-0001, No. 005535515-0003, No. 005535515-0004) and is later described in more detail.

The claimed method is based on self-affine holographic objects’ ability to transform the EM pulses interacting with them according to their characteristics.

Holography (from ancient Greek: ὅλος – whole, γράφω – I writing) It is based on two physical phenomena — diffraction and interference of EM waves. The physical idea is that under the imposition of several wave pulses, under certain conditions, an interference pattern occurs, that is, a spatial regular system of maxima and minima of the intensity of electromagnetic radiation in the form of a stationary field having a fractal self-affine structure.

According to contemporary scientific concepts, when interacting with external EM

In order for this interference pattern to be stable for the time necessary to observe, and in order for it to be recorded, these EM pulses must be harmonized spatially and temporally across frequencies and amplitudes. Such EM waves are called coherent.

Based on the principle of superposition, if EM waves coincide in phase, then they add with each other and produce a resultant wave with an amplitude equal to the sum of their
amplitudes. If they meet in antiphase, then they cancel each other out. If two opposite EM pulses are identical in phase, amplitude, frequency, and polarization vectors, then their amplitudes are multiplied.

The resulting interaction of two coherent waves is a fractal standing wave. That is, the interference pattern will be stable in time (phase), in amplitude (power), polarization vector (direction), and frequency (stability). Since any fractal construct is a self-affine structure, that is, formed from its own analogues, this property underlies the production and restoration of holograms in its individual fragments.

To obtain a holographic response, the resonator must either itself have the ability to transform the radiation incident on it into a coherent form, or the incident radiation must initially be coherent. The hologram arising from the resonator carries not only the same characteristics and properties as the radiation incident on the resonator, but also the specific features of the resonator topology itself. As a result, if the resonator initiates a coherent transformation of incoherent EM radiation incident on it, the resulting hologram has the same ability to transform an EM pulse of the corresponding frequency range that interacts with it into a coherent state.

The strength and intensity of the coherent field fall in proportion to the square of the distance from the resonator. Thus, the given EM field can transform EM radiation interacting with it into a coherent form, if its strength and intensity is not lower than the strength and intensity of the opposite radiation. Such interaction is possible due to the fractality of the resonator, not only when the frequencies coincide, but also when they are similar at multiple scales.

Below is an image of a self-affine lattice fixed on a solid medium (left), and a photograph of the holographic response resulting from the incoherent EM radiation’s interaction with the slit topological surface of the lattice (right).

It is known that coherence (cohaerens – in communication) is the harmonized flow in time and in space of several oscillatory processes (https://dic.academic.ru/dic.nsf/enc_physics/1408/КОГЕРЕНТНОСТЬ).

The term “coherence” means the absence of conflicts, consistency, and communication. When applied to EM radiation, it refers to consistency and communication between EM oscillations and waves. Because radiation is distributed across time and space, it is possible to estimate the coherence of oscillations radiated by a source at various points in time at any particular point in space, as well as the coherence of oscillations radiated at a particular point in time at various points in space. [8]. Oscillations are called fully coherent if the difference of their phases at the observation point remains constant in time and, when these oscillations are added, determines the amplitude and intensity of the summed (resulting) oscillation. Oscillations (waves) are called partially coherent if the difference of their phases changes very slowly (compared with the observation time), and incoherent if the phase difference changes randomly.

Thus, “coherence” means consistency and communication between EM oscillations. EM radiation is distributed across time and space, so it is possible to estimate the coherence of oscillations radiated by a source at various points in time at any particular point in space (temporal coherence) or the coherence of oscillations radiated at a particular point in time at various points in space (spatial coherence). These properties lead to the conclusion that energy losses at a point of coherent radiation are minimized.

An example of obtaining coherent radiation using a novel approach is creating regular structures on the surface of solids. These structures then act as resonators. An example of this approach [9] is the use of a SiC wafer with a regular structure in the form of parallel grooves, which initiates the production of coherent radiation with a peak at the corresponding wavelength.

A wafer of SiC, which is a source of coherent, nearly monochrome radiation at a distance of 100 nm from the surface of the wafer.

 

Of interest is the case where it would be possible to generate EM oscillations on not a single frequency, but a wide range of frequencies, while preserving interrelationships between them such that they remain coherent, not only in time, but also in space, like a laser. To do this, we need to use, as a foundation, a certain resonator on a planar substrate, similar to the given example, but with a topographical surface in the form of fractally arranged circles with specific interrelationships.

A device that generates coherent radiation with such properties would find application in a diversity of fields, including for spatial encoding of data, because it can transform incident radiation into a coherent form with properties containing information about the incident radiation.

So-called self-affine structures generated in the form of annular slits open unexpected possibilities for use in scientific research and technology. In [1] a self-affine fractal is defined as a structure that is invariant after simultaneous yet quantitatively different changes in the scale along different spatial axes. The affine transformation of a vector from the origin to point (x1, y1), to a vector from point (b1, b2) to point (x2, y2) is defined as:

System (1) can be represented as a matrix:

and illustrated with a picture:

Affine transformations of a vector

 

Affine transformations can also define a rotation by angle a about the origin.

After performing transformations representing the multiplication of points of the figure by the scale factor m1= 2i and rotations by an angle proportional to the coefficient m2= 2j , and overlaying the original drawing, we obtain the figure shown below.

Result of performing affine transformations

The appearance of such a structure is presented below.

Appearance of a self-affine structure

 

Modeling

During the modeling, a stationary model and two-dimensional and three-dimensional non-stationary models were analyzed.

Stationary model

For the stationary case, the interaction of EM radiation waves with the wafer’s surface can be written as follows:

where: k is the wave number, ε is the wafer’s dielectric constant, ω is the cyclic frequency, c is the speed of light; r is the length of the radius vector,  is the polar angle, E is the electric component of the strength vector.

The following type of model was used during modeling:

where: where E is a function proportional to the strength of the radiation; r is the length of the radius vector,  is a polar angle. a and b are constants.

During calculations on a computer, the radiation’s periodic behavior was changed relative to the size of the wafer, when the wavelength of the incident radiation and the periodic behavior of the resonator’s surface pattern were compared, taking into account its dimensions.

The obtained modeling results, shown in the figures, show that the strength of the electric field, after interacting with the self-affine fractal lattice, is redistributed so that the graphs of the field distribution over the surface become regular, a trait that remains almost unchanged when changing the frequency of the incident radiation over a wide range.

Modeling result for incident radiation with a frequency of 2 periods per 1 rotation by the angle. Amplitude is on the left; phase is on the right.

Periodic behavior of incident radiation of 64 periods per 1 rotation by angle . Amplitude is on the left; phase is on the right.

Non-stationary model

The fractal served as the foundation for building the mathematical model.

The rings on the surface are grooves about 1.3 microns deep and 1 μm wide. The minimum distance between the “grooves” is 1 μm. The wafer’s outer diameter was 6 mm. When interacting with the conductor, an electric field causes charges to shift and increases the concentration of charges in the “grooves” relative to adjacent areas.

Therefore, during modeling, it was assumed that the medium’s charges would be concentrated more in the “grooves” than in other areas. When the potential reaches some critical value, there is a discharge along the shortest distance between the grooves.

Non-stationary two-dimensional model

In this case, the mathematical model looks like this:

where D and a are coefficients, E is the electric field’s strength, x and y are coordinates,

and t is time. The discharge criteria is implemented as follows: if

The main result of the modeling is that regardless of the conditions at the boundary, the steady-state solution is stable and soliton-like. Its shape does not change with changing boundary conditions. This means that the resonator’s self-affine surface transforms radiation in such a way that the result of this process does not depend on the characteristics of the radiation incident on it.

The results of the calculations for the two-dimensional model (5) are given in the figures. The red color corresponds to the maximum field strength, while violet corresponds to the minimum.

Distribution of strength E across the wafer’s surface under the steady state; various projections.

Distribution of the amplitude’s spectral power density on the wafer’s surface through time t>test. Amplitude is on the left; phase is on the right.

For comparison, the result of the experiment while illuminating the wafer’s surface is presented below.

Result of the experiment while illuminating the surface of the resonator’s wafer

The figure clearly shows a luminous “scaly” dome (hologram), similar to the results of a computational experiment.

Non-stationary three-dimensional model
A three-dimensional model was considered:

Technically, this model only differs from the two-dimensional model by the presence of a third spatial coordinate z. However, this makes it possible to create a more complete representation of the interaction of the self-affine topological surface with radiation, and obtain the spatial distribution of strength E. The resonator’s surface lies in plane x0y with the origin at the center of the resonator. The z-axis is orthogonal to this plane.

Wafer orientation relative to the coordinate system

Impulse effect on three opposite points with an ungrounded resonator center

Result of modeling with an impulse effect on three points positioned at an angle of 120° from each other.

Influence on 3 points with an ungrounded center.

The graphs of the distribution of the electric field strength in the figure were made for heights z above the surface of the resonator, from z=0, lower graph, to z=0.02 mm for the last, upper graph. The wave attenuates after a height of 0.02 mm.

Electric field strength above the resonator. Development of a spatial wave from the surface of the resonator (lower graph), side view.

The figure below also illustrates the strength distribution over height, to a height of 0.03 mm.

The strength distribution over height, to a height of 0.03 mm, with influence on 3 points with an ungrounded center.

Impulse effect on two opposite points with ungrounded resonator center.

The field acts on diametrically opposite points on the surface of the resonator, which lie in the middle of the radii, a two-sided circuit.

Impulse effect on two opposite points with ungrounded resonator center

One of the modeling results is presented in the following figure. This shows the development of a spatial wave from the surface of the resonator.

Electric field strength above the resonator. Development of a spatial wave from the surface of the resonator (lower graph), side view.

The graphs of the distribution of the electric field strength in the figure were made for heights z above the surface of the resonator, from z=0, lower graph, to z=0.2 mm for the last, upper graph. The wave attenuates above a distance of 0.2 mm. The figures below illustrate the strength by height in the same sections from different positions.

Electric field strength on the surface of the resonator (lower graph, z= 0) and so on in layers above the surface: 0.1mm; 0.2mm; 0.3mm; 0.4mm; 0.5mm. When z>0.2mm, the wave decays.

Above the coordinate z=0.2 mm, the electric field strength becomes very small. The figure below shows that it extends in breadth and the strength magnitude drops sharply with distance from the origin.

Impulse effect on two opposite points with grounded resonator center and two-sided circuit

The development of an electric field during rotation and given influence on two opposite points on both sides of the resonator was investigated. Below are the results of the calculation for the steady state, for a side view.

Electric field strength for the steady state, when using a resonator with a double-sided design, side view.

The following figures present the same result layer by layer for heights from 0 mm to 1.7 mm above the resonator’s surface.

Strength on the resonator's surface

Strength at a distance of 0.1 mm above the surface of the resonator

 

Strength at a distance of 0.2 mm above the resonator’s surface

Strength at a distance of 0.3 mm above the surface of the resonator

 

Strength at a distance of 0.4 mm above the resonator’s surface

Strength at a distance of 0.5 mm above the the resonator’s surface

 

Strength at a distance of 0.6 mm above the resonator’s surface

Strength at a distance of 0.7 mm above the resonator’s surface

 

Strength at a distance of 0.8 mm above the resonator’s surface

Strength at a distance of 0.9 mm above the resonator’s surface

 

Strength at a distance of 1 mm above the resonator’s surface

Strength at a distance of 1.1 mm above the resonator’s surface

 

Strength at a distance of 1.2 mm above the resonator’s surface

Strength at a distance of 1.3 mm above the resonator’s surface

 

Strength at a distance of 1.4 mm above the resonator’s surface

Strength at a distance of 1.5 mm above the resonator’s surface

 

Strength at a distance of 1.6 mm above the resonator’s surface

Strength at a distance of 1.7 mm above the resonator’s surface

 

The next figure presents the results of modeling using a three-dimensional non-stationary model (6). The upper left figure is time 1. The middle left figure is time 2. The lower left figure is time 3. The upper right figure is time 4. The middle right figure is time 5, and the lower right figure is time 6. The red color corresponds to the maximum field strength, while violet corresponds to the minimum.

/n

The change in the development of the wave along the z-axis, which is orthogonal to the wafer’s surface, can be seen clearly in the figures. The wafer is located on the left and occupies the position whose borders are denoted in the middle left figure by two bars. Given a wafer with a diameter of 6 mm, the wavelength along the z-axis is approximately 1.1 mm. The radiation incident upon the wafer was white noise.

/n

Dynamics of changes in the strength of the field above the wafer

 

Distribution of field strength E above the resonator from 0.28 to 14.18 (V/m) with incident radiation at 2.4 GHz.

 

Distribution of field intensity I over the resonator from 0.08 to 201.05 (W/m2) with incident radiation at 2.4 GHz.

Thus, the self-affine surface topography transforms the radiation incident on it into a coherent form, even for a wide range of frequencies.

  • It was shown in [1] that a coherent transformer, when excited by EM radiation, forms a stationary, multi-frequency coherent wave (hologram) in space, which is stable and soliton-like regardless of the boundary conditions [2]. Its shape does not change with changing boundary conditions. This means that the result of this transformation does not depend on the characteristics of the radiation incident on it.
  • Our experiments have demonstrated that a semiconducting wafer with a self-affine topography on its surface transforms a broad spectrum of incident radiation into a coherent form. It redistributes the incident radiation in terms of its wavelength as well as its phase, in accordance with its topography. Its use opens up fundamentally new opportunities for creating a variety of devices:
    – coherent transformers that harmonize the interaction of several wave fronts;
    – broadband resonators with distribution of energy through a space that is self-similar and carries information about the amplitude, wavelength, and phase of incident radiation.
  • This development will find application in the form of a protective device that transforms external radiation, including 5G communication systems (3.5-28 GHz), into a form that is harmonized with the inherent radiation of an organism’s cells, thus making it safe for a biological object.

Based on the fact that biological objects are open physical systems that have an EM nature and function under conditions of constant exchange of energy and matter with the environment, they have a specific design for fixing the set of the molecular structural lattice’s nodal centers, which are interconnected in a unified spatial matrix. Since the molecular structural lattice reflects a specific model of the fundamental interrelationships of the object, it is possible to consider the biological organization as an organization that initiates a constant EM superposition. This superposition is able to react by means of its own resonance to any particular external impulse, causing changes in the molecular structure that gave rise to it, making it possible to have a targeted effect on the biological object.

As a result of the counter-harmonization of technogenic radiation interacting with the BO’s own electromagnetic radiation, which is a superposition of cellular metabolism processes, the coherent transformer used in this method initiates optimization of the organism’s adaptive physiological characteristics, thereby making the interaction conflict-free, which is proven by experimental data.

The essence of the claimed method is as follows.

The method for protecting biological objects from the negative influence of technogenic EM radiation in a wide range of frequencies, which includes creating around a biological object (BO) or between it and the source of technogenic EM radiation a special EM field in the form of a fractal coherent matrix (hologram), using a fractal-matrix coherent transformer to create the field.

The coherent transformer used is a self-affine lattice (resonator), formed from circular topological lines, creating a slit-like raster.

The resonator’s structural lattice is a Fourier transformer that harmonizes the amplitudes, phases, frequencies and polarization vectors of external technogenic radiation and the BO’s inherent EM radiation. The coherent field that forms around the resonator resonates with the surrounding EM waves., including with the inherent radiation of the human body’s biological cells, transforming it into a consistent form, and makes the interaction conflict-free.

The resonator’s coherently transforming impulse forms a spatial matrix whose multilevel gradation is a set of annular raster lattices symmetric with at least the three orthogonal basis vectors X, Y, Z with a subsequent release to multidimensionality N and with the formation of a spatial monostructural form with an infinite number of inherent components satisfying Noether’s theorem, which requires the formation of the maximum spatial symmetry of the object’s field structure, and the condition of interaction in the form of a self-affine hypersphere.

where X, Y, Z, N are the fractalization vectors of the system of a annular self-affine circuit, k = 1..n is the number of circuit elements.

According to the Noether theorem, each continuous symmetry of a physical system corresponds to a certain law of conservation. In our case, the symmetry of the diffraction grating, formed from annular topological lines, unambiguously forms a coherent EM field, which is a hologram as a stable wave structure. This is confirmed by the principle of holograms (D. Gabor – Yu.N. Denisyuk), according to which any wave superposition carries the same properties as the regular structure that generated it.

During the proposed exposure to a coherently transformed EM field, the complex of the wave characteristics of the inherent radiation of the cells of a biological object is brought into a resonant state that is determined by strict fractal-matrix schematization, which causes the system to respond. Such counter-harmonization of the wave characteristics, by eliminating conflict, leads to the stabilization of all metabolic processes and, as a result, an increase in the BO’s adaptive abilities under conditions of exposure to technogenic EM radiation [3, 4].

The wave characteristics and stabilization of the metabolic processes of the BO are harmonized by exposing it to an EM field coherently transformed by the resonator’s self-affine annular grating. For the resonator’s self-affine annular grating, we used the fractal-planar projection of a special spatial structural-holographic construction, fixed on a solid medium and formed from annular topological slit-like lines that create a raster (RF Patent No. 2231137, No. 2217181, No. 2284062, No. 2308065, No. 2312384; EU Patent No. 005535515-0002, No. 005535515-0001, No. 005535515-0003, No. 005535515-0004).

The figures show simplified versions of planar projections of the spatial structural- holographic self-affine matrix of the resonator’s coherently transforming field response.

Simplified versions of planar projections of the spatial structural-holographic self-affine matrix of the resonator’s coherently transforming field response.

 

The coherently transforming resonator can be made in various embodiments, depending on its location, and be directly on the BO (attached to clothing, hung from a cord, etc.), near the BO (for example, in the same room), attached to the source of technogenic EM radiation (mobile phone, computer, home appliances, etc.) or be between the BO and the radiation source.

The proposed method for protecting biological objects from technogenic EM radiation contributes to a reduction (elimination) of the negative influence of technogenic EM radiation on the BO, especially with the spread of 5G communication systems. This method makes it possible to protect a biological object from the negative influence of broadband EM radiation.

The claimed method has no analogues and can be used in the daily life of a person that exists among a large number of electronic devices emitting an EM field.

 

Bibliography

  1. Kopyltsov A.V., Serov I.N., Lukyanov G.N. Interaction of a Semiconducting Wafer with a Self-Affine Surface Topography with Electromagnetic Radiation. Nanotechnology. – 2006. – No. 4(8). – pp. 44-49.
  2. Serov I.N., Lukyanov G.N., Kopyltsov A.V. Mathematical Modeling of the Interaction of Electromagnetic Radiation with a Silicon Self-Affine Surface. ENGECON Bulletin, “Technical Sciences” series – 2007 Issue 6(19) – pp. 199-205.
  3. Serov I.N., Sysoyev V.N., Rybina L.A., Ananeva V.N., Effect of products with a nano- scale fractal topology on several vital processes and human ecology, Nanotechnology, 2006, April, No. 1, pp. 146-151
  4. Serov I.N., V.N. Sysoyev. , Evaluation of the effectiveness of using Aires Shield electromagnetic anomaly neutralizers to reduce the negative influence of the electromagnetic field caused by the operation of a cellular phone, International Journal of Applied and Fundamental Research. – 2014. – No. 8 – pp. 81-85
  5. Slabko V.V., Principles of Holography, Soros Educational Journal, No. 7, 1997
  6. D. Gabor. “Holography (1948-1971)”. Nobel Lecture, Advances in the Physical Sciences, Vol. 109, Issue 1, January 1973
  7. Yu. N. Denisyuk. Principles of Holography. — Leningrad: Publishing House of the State Optical Institute, 1979.
  8. A.S. Mitrofanov. Principles of amplification of optical radiation. Teaching aid. Saint Petersburg. Saint Petersburg State University of Information Technologies, Mechanics, and Optics, 2005
  9. Potapov A.A., Fractals in Radiophysics and Radiolocation: Topology of the Sample. Edition 2, revised and added to. – Moscow: Universitetskaya Kniga, 2005.
  10. Mandelbrot, V.V.‚ Self-affine fractals and fractal dimension‚ Physica Scripta 32 (1985) 257–260.
  11. Nguyen VD, Bouisset P, Kerlau G, Parmentier N, Akatov YA, Archangelsky VV, Smirenniy LN, Siegrist M. A new experimental approach in real time determination of the total quality factor in the stratosphere. Rad. Prot. Dos. 1993; 48(1): 41-46.
  12. Johansen Ch. Electromagnetic fields and health effects – epidemiologic studies of cancer, diseases of the central nervous system and arrhythmia-related heart disease. Scand J Work Environ Health 2004; 30 Suppl 1: 1-80.
  13. Hardell L, Sage C. Biological effects from electromagnetic field exposure and public exposure standards. Biomedicine & Pharmacotherapy 2008; 62: 104-109.
  14. Terzia M, Ozberka B, Denizb OG, Kaplanb K. The role of electromagnetic fields in neurological disorders. J. Chem. Neuroanatomy. 2016; 75: 77-84.
  15. Repacholi MH, Basten A, Gebski V, Noonan D, Finnie J, Harris, AW. Lymphomas in E mu-Pim1 transgenic mice exposed to pulsed 900 MHz electromagnetic fields. Radiation Research.1997; 147(5): 631-640.
  16. Phillips JL, Singh NP, Lai H. Electromagnetic fields and DNA damage. Pathophysiology 2009; 16(2-3): 79-88.
 

BACK UP TO THE TABS

How to Verify the Effect

Research on the effectiveness of Aires Shield and Aires Defender

The negative effect of EMR on human health, in particular, that of mobile phones and other household sources was discovered as a result of research into the causes of various diseases suffered by those who constantly use these devices. Specifically, evaluating the condition of health of these people revealed how health depends on the effects of electromagnetic radiation. Stemming this factor, various forms of research into physical fields have emerged, which in turn have discovered several differences in the signals being investigated, which have been interpreted as causing either negative or neutral effects.

The fundamental test unquestionably remains a person’s physiological condition after interacting with electromagnetic radiation of one type or another. The properties of EMR then are indirect parameters and cannot definitely be interpreted as having a negative or positive effect. No matter what research into EMR we conduct or how the research is interpreted, the underlying test was, is, and will be the physiological response of the human body to some electromagnetic wave.

Only adequate testing of the body’s response to a particular type of radiation can demonstrate the true state of affairs – whether or not that radiation affects human health. The tools capable of answering these extremely important questions of our day are well known. First of all, this means research of the neuroendocrinal system using an encephalograph and other similar devices under laboratory conditions.

How it works

Due to its structure and inherent physical effect, the Aires coherent transformer interacts effectively with a broad spectrum of electromagnetic radiation. Moreover, the radiation is transformed into a coherent waveform that is a space-time matrix of regularly alternating maxima and minima, capable of counteracting electromagnetic radiation from external sources.

The Aires self-affine diffraction grating is a specially formed fractal circuit of ringed topological lines, which triggers a forward and inverse Fourier transform when under the influence of electromagnetic radiation. The EMR is differentiated and simultaneously restructured, integrating the EMR subforms into a coherent form. Moreover, anomalous peaks in a wide range of frequencies are smoothed. Without losing any information this then generates a short-range field with a self-similar, fractal structure (e.g. a hologram) that can cancel out external electromagnetic fields with destructive interference.

The structural properties of the field around the coherent transformer are harmonized, which forms a special zone that resonates with the surrounding wavefronts, including radiation from the living cells, thus neutralizing the properties of devices and body.

Thus, using the Aires coherent transformer as a protective device not only effectively restructures electromagnetic fields generated by electronic devices, transforming them into a coherent form, it also improves a host of physiological measures of the health of a body subject to man-made electromagnetic radiation, due to the neutralization of one’s own electromagnetic radiation.

Research on protecting against EMR using the Aires Shield

Numerous studies performed on subjects aged 18 to 70 years have proven the effectiveness of this product.
In the first test group, there was investigation of electroencephalographic (EEG) changes in the presence of EMR from a mobile phone and the Aires Shield neutralizer’s ability to dampen these anomalies.

The studies included basically healthy test subjects of both sexes between the ages of 19 and 31. Two experiments were conducted on each subject: under the influence of EMR from a mobile phone and under the influence of EMR from a mobile phone with an Aires Shield applied to its back panel.

No significant changes to the EEG parameters were discovered in standby mode. However, this does not eliminate the possibility of changes appearing during extended exposure to EMR from a mobile phone in this mode. It is known from the literature that the minimal changes in biological parameters under the influence of low-intensity EMR accumulate over an extended period (more than a year), negatively affecting a organism.

The change in the cerebrum’s bioelectric activity in the presence of a mobile phone is so pronounced it could be called a localized electromagnetic storm.

We present the examination results of one of the test subjects below:

Fig. 1. EEG spectral power distribution (mobile phone and Aires Shield located on the left ear):

А — before operation of the mobile phone

В — during operation of the mobile phone

С — during operation of the mobile phone with an Aires Shield

 

Figure 1 shows that after a five-minute mobile phone conversation the test subject experienced a disruption of the rhythmic pattern of the baseline EEG and an asymmetric rhythm distribution.

In the area of the mobile phone, the asymmetry of delta activity increased by 37%.

The asymmetry caused by the mobile phone was completely leveled out in the presence of the Aires Shield electromagnetic anomaly neutralizer.

These experiments demonstrate that EMR from a mobile phone causes local changes in the EEG, disrupts the pattern of intercenter links, and leads to a disruption of the central nervous system, which can become the cause of a multitude of diseases of the central nervous system and internal organs.

The coherent transformation of the mobile phone’s EMR in the presence of the Aires Shield electromagnetic anomaly neutralizer prevents negative changes in the EEG from developing.

The EEG experiments confirm that the Aires Shield electromagnetic anomaly neutralizer reliably protects a person from the negative influence of a mobile phones EMR and maintains the regulatory functions of the central nervous system.

In the next test group, subjects were studied to determine the effect of the Aires Shield on the activation and inhibition of the central nervous system when working at a computer.
This experiment included 24 healthy peopled aged 20 to 30 years.

The experiment consisted of two parts.

The main objective of the first part of the study was to assess the long-term effects of working at a computer on the equilibrium of the processes of activation and inhibition in the central nervous system and their functional lability.

The following procedures were used:

  • determine the flicker fusion threshold to assess the functional lability of neural processes. To do so, there was an application of:
  • a “response to moving object” test to determine the properties of neural equilibrium in the central nervous system.

These values were measured twice – before beginning to work at the computer and after doing so. The time at the computer was 240 minutes.

The main objective of the second part of the study was to assess the long-term effects of working at a computer on the equilibrium of the processes of activation and inhibition in the central nervous system and their functional lability while using the Aires Shield electromagnetic anomaly neutralizer.

The neutralizers were applied to the corners of the computer monitors (4 neutralizers per monitor).

The following statistically significant changes were observed:

  • When working at an unprotected computer the number of premature responses increased from 8.83 to 9.83.
  • The flicker fusion threshold decreased from 41.3 to 39.8. This indicates a shift in the neural balance in the central nervous system toward a prevalence of activation and a reduction in the functional lability of the visual sensory system and the central nervous system as a whole. These facts imply the formation of beginning stage of fatigue, which progresses during the work.
  • When working at a computer with an Aires Shield there was a statistically significant increase in correct responses from 3.83 to 5.08. Additionally, an improvement was noted in the cumulative score in successfully performing the test from 109.9 to 127.5.

This data leads to the conclusion that using Aires Shield electromagnetic anomaly neutralizers while working at a computer for extended periods prevents a reduction in the visual analyzer’s functional lability and supports an optimal balance between activation and inhibition in the central nervous system during the activity.

In another test group, the Voll method was employed to assess functional activity using a Mini-Expert-DT electroacupuncture diagnostic apparatus.

The initial measurements demonstrated that the test group was on average uniform in terms of the functional activity of organs and body systems, because the total deviation of the electric potential from the norm did not exceed 16+1.3%. The normal range of electric potential values lies between 50-60 standard units.

As Figure 2 illustrates, the activity of the majority of the organs and systems falls in the normal range before the mobile phone conversation.

Fig. 2. Graph of baseline electric potential at control points on one of the test subjects before the mobile phone conversation.

Fig. 3. Electric potential at the control points after a 3-minute mobile phone conversation without a protective device.

 

Figure 3 shows a dramatic reduction in the activity of body systems such as the immune, endocrine, circulatory, and gastrointestinal systems, as a result of a 3-minute mobile phone conversation.

Figure 4 illustrates changes in the activity of organs and body systems after a three-minute phone conversation using the same mobile phone, but protected with an Aires Shield electromagnetic anomaly neutralizer. Not only are the measures restored, the are improved when compared to the baseline measurements.

Fig. 4. Electric potential at the control points after a three-minute conversation with a phone with an Aires Shield.

Fig. 5. Electric potential of circulatory system control points under the influence of man-made electromagnetic radiation from a mobile phone: before turning it on, during a conversation, and during a conversation with an Aires Shield neutralizer.

 

Figure 5 illustrates the changes in the electric potential of the circulatory systems control points when under the influence of electromagnetic radiation from a mobile phone (second column in the diagram) in comparison with the baseline radiation (first column) and radiation with the Aires Shield (third column).

Note not only the sharp reduction in the electric potential of the circulatory system under the influence of electromagnetic radiation from the mobile phone to the level of developing progressive dystrophic changes in the system, but the obvious effect of the drop in electric potential (indicated in red), which indicates pronounced astenization and a distruption of neuroendocrinal regulation and vegetative balance.

The Aires Shield electromagnetic anomaly neutralizer both fully restores the electric potential and eliminates the progress of astenization, saving resources for the body.

The behavior of the total deviation from the electric potential norm clearly illustrates the affect of a mobile phone’s electromagnetic radiation and the Aires Shield electromagnetic anomaly neutralizer on the activity of organs and body systems. The value is 0 at the norm.

Fig. 6. Total deviation from the electric potential norm at various stages of the experiment.

 

Figure 6 presents the total deviation from the electric potential norm at various stages of the experiment.

It can be seen that a three-minute mobile phone conversation reduces the activity of organs and tissues in basically healthy people by an average of 30%, which coincides with data from the WHO. People with more pronounced electric potential deviations (up to 40% from the norm), the negative affect of the mobile phone’s electromagnetic radiation is more apparent and reaches 50%, but the Aires Shield electromagnetic anomaly neutralizer not only protects the body from the affects of the man-made radiation, it also promotes restoration of the disrupted activity.

The Aires Shield stabilizes this restorative effect for several hours.

These experiments conducted using various methods to diagnose functional activity lead to the conclusion that the Aires Shield electromagnetic anomaly neutralizer is an effective tool to protect against the aggressive action of electromagnetic radiation from mobile phones and computers.

The Aires Shield dampens the toxic effect of EMR, which fosters the preservation and restoration of the body’s functional activity. As a result, the body operates at the level corresponding to its genetic foundation.

A reduction in the aggressive effect of EMR promotes:

  1. Increased energy and, consequently, improved functioning of the immune system.
  2. Enhanced neuroendocrinal regulation.
  3. Synchronization of the central nervous system and renewal of a person’s mental and emotional state.
  4. Appropriate social adaptation. Increased capacity to work and opportunities for constructive personal realization.

Research on the change in an electromagnetic field in the presence of an Aires Shield

As is well-known, an electromagnetic field (EMF) is described by an oscillation frequency (f, с-1 or GHz) and wavelength (λ, m), which are related according to the following equation:

where c is the speed of light, equal to 3 x 108 m/s.

An EMF is also characterized by the plane of polarization that defines the distribution of the electric oscillations. Horizontal, vertical, and combined polarizations are distinguished from one another.

Standard GSM 900/1800 GHz phones with Aires Shield electromagnetic anomaly neutralizers applied to the cases were used in the experiment. Standard instruments were used to measure the fluctuations in EMF parameters (the electric and magnetic components):

1. HAKKO FG-450 static level meter (Japan).
2. AKTAKOM ATT-2592 electromagnetic field tester (Taiwan).

Other similar devices may also be used for the measurements

Other similar devices may also be used for the measurements.

When conducting the experiment, the following should be considered:
1. The polarization of the “body – mobile phone” system
A static field forms on the surface of the phone and its components, which begins to interact with the body, causing a negative physiological effect.

2. The strongest electromagnetic radiation from the mobile phone can be expected in the device’s near field, regardless of the standard.

3. The reality of the “body – mobile phone” interaction, since the phone is next to the cerebrum during use (1.5 cm thickness of the temporal bone + the perceptive area of the ear). The resonant phenomena in the skull’s bone tissue facilitates the penetration of the mobile phone’s electromagnetic field and its effect on the cerebrum.

4. The near field (within 0.3-0.5 mm of the device) is the most appropriate and accessible place to conduct the experiment, e.g. position the measuring instruments.

Measurement procedure:

1) The phone’s properties (changes in the electric and magnetic components of its EMF) are measured for its three operating modes: standby, call mode, and talk mode, for two radiators (handsets).

2) The electromagnetic fields near the phone are measured in standby-, call-, and talk mode, at realistic distances from the devices’ axes of orientation (in the near field: within 0.3-0.5 mm of the device and 0.7 and 1.5 m from the floor). The sensor is installed on the top of the phone. The Aires Shield is placed under the phone. The fluctuations (ΔBZ) pass through an analog-digital converter on a computer.

3) The measurements can be processed using Microsoft® Excel и Origin® 7.0. Each record is split into 0.256 s segments to compute the spectra based on the fast Fourier transform (FFT). The temporal spectrograms are constructed from the spectra obtained. The results is a three-dimensional plot S(f, t) with the following axes: time t [0-60 s] (on the horizontal), frequency f [0-500 GHz] (on the horizontal), and spectral density S(f, t) (on the vertical as a color gradient).

An analysis of the this data confirms that given a change in the electric and magnetic components by laboratory methods, a change is registered in the surface of the electromagnetic field’s polarization. The Aires Shield neutralizer significantly reduces the level of polarization, especially around the phone’s antenna and speaker, which is extremely important for the user.

One must differentiate between changes occurring in the phone’s near field and out of it. As noted, in the near field there is a pronounced reduction in the static field, while at a distance no substantial changes are detected.

Conclusion:

1. An Aires Shield on a mobile phone differentiates the static potential (only within the near field) with a more than 3-fold change in the recorded parameters.

2. An Aires Shield on a mobile phone restructures the EMF: The neutralizer provides for a smooth downswing in energy S(f) with the first deep minimum around 35 GHz, and it substantially diminishes the intensity of the radiation around 50 GHz (only within the near field).

3. When measuring a mobile phone’s EMF parameters (the electric and magnetic components) in the presence of an Aires Shield, substantial changes are not observed outside the near field (at a distance of 0.5-1m). Thus, we may conclude that the neutralizer does not affect the signal reception at the base station.

Research on protecting against EMR using the Aires Defender

A multitude of scientific studies have been conducted which prove the effectiveness and security of the Aires Defender. The following investigative methods were used in this work to assess its effect:

  1. Voll electroacupuncture diagnostics.
  2. Nakatani functional diagnostics.
  3. Electroencephalographic examination.
  4. Rheoencephalographic examination.
  5. Computer-aided video psychoanalysis.

Assessment of the effect of the Aires Defender using the Voll electroacupuncture method

A Mini-Expert-DT electroacupuncture diagnostic apparatus was used to determine functional activity in a test group of subjects aged 3 to 94 years.

Observations were made before applying the Aires Defender and again with it positioned in the area of the projection of the celiac plexus under the xiphoid process.

The experimental results are presented as circular charts and graphs of the total deviation from the norm. The value at the norm is equal to 0, since there is no deviation at the norm.

In the circular charts, the black line represent the initial values, and the red line represents the values while using the Aires Defender. The meridian electric potential norm is from 50 to 65 (green band).

We present several of the experimental results by way of example.

1. 40-year-old female test subject.

Before application of the Aires Defender, the majority of the meridians were depressed and energy resources were sharply reduced. The neuroendocrinal, immune, and cardiovascular systems were especially depressed.

Upon examination with an Aires Defender on the projection of the celiac plexus, all electric potential measures were in the band of normal values and energy resources were restored.

2. 30-year-old male test subject.

Total deviation from the norm

 

The circular charts present a high degree of imbalance in the test subject’s vital body functions. Low energy resources were noted. High-risk group for serious diseases. This examination yielded an obvious example of the effect of environment on a young body.

After using the Aires Defender for 3 hours 40 minutes, a harmonization of oscillatory (wave) processes was observed and energy resources were restored, which leads to a balance in vital body functions.

The high initial value was 34. This dropped to 2 after using the Aires Defender for 3 hours 40 minutes.

The Aires Defender exhibits a pronounced protective effect in this instance.

3. 58-year-old female test subject.

Total deviation from the norm

 

The initial values of functional activity were extremely low. The test subject is in a high-risk group for developing serious diseases.

A second observation was made after a 4-hour application of the Aires Defender. It demonstrated an
excellent positive trend: the restoration of energy resources and the normalization of electric potential.

The high initial value of 40 indicates the possibility of developing serious diseases.

After 4 hours of using the Aires Defender, the value was decreased to 5.

4. 54-year-old female test subject.

Total deviation from the norm

 

The circular charts illustrate that a portion of the meridians were depressed and a portion were activated, evidence of the desynchronization of oscillatory (wave) processes which subsequently leads to the development of manifold homeostatic disorders.

After 37 minutes of the effects of the Aires Defender, most of the electric potential measures normalized. The reaction on the right was especially positive.

The value before the use of the Aires Defender was 23. After using the Aires Defender for 37 minutes, the value dropped to 8.

5. 43-year-old female test subject.

Total deviation from the norm

 

A significant reduction of energy resources owing to a pronounced depression of the majority of the meridians, especially on the lower half of the body (high-risk group for serious diseases).

After using the Aires Defender for 52 hours, energy resources were restored and the electric potential of the majority of the meridians normalized.

Before application of the Aires Defender the value was 24. After 52 hours with the Aires Defender, the value dropped to a minimum of 4.

6. 41-year-old test subject.

The following depicts the total deviation from the norm from the right (Fig. 1) and from the left (Fig. 2), under the influence of an Aires Defender.

Fig. 1

Fig. 2

 

The subject has a pronounced asymmetry in the initial measurements: 33 from the right and 44 from the left, which indicates a desynchronization of the right and left cerebral hemispheres.

After 46 hours of using the Aires Defender, the value dropped on both sides to 22 and the asymmetry was gone. After 98 hours of using the Aires Defender, the value dropped to a minimum of 5 on both sides.

7. Highly revealing observation data from a 3-year-old child.

Total deviation from the norm

 

The pronounced asymmetry in the circular charts is evidence of an imbalance of the oscillatory (wave) processes. Accordingly, the child’s vital functions were imbalanced. Energy resources were significantly reduced. These anomalies may eventually lead to the development of serious diseases and an irregular mental state, including learning disabilities and the inability to adapt socially.

After using the Aires Defender for 3 days, the asymmetry was significantly diminished and energy resources increased.

The initial value was 38. After 3 days of using the Aires Defender, there was a significant decrease to 8.
This observation is a clear example of the influence of the environment, especially of man-made electromagnetic radiation, on the growing body. Such conditions prevent the body from developing properly and, consequently, adapting socially and reaching its full potential.

The Aires Defender has a dampening effect on the influence of aggressive electromagnetic radiation, which allows the body to develop in accordance with its genetic foundation.

These tests using Voll electroacupuncture diagnostics lead to the conclusion that the Aires Defender is an effective tool to protect against the aggressive action of man-made electromagnetic radiation in one’s environment.

Assessment of the effect of the Aires Defender using Nakatani functional diagnostics.

Another test group was evaluated using Nakatani functional diagnostics. Observations were performed using a Mediscreen rapid-diagnostic apparatus.

The results are presented as diagnostic charts and circular charts.

The diagnostic charts are interpreted as follows: The middle band is the range of normal values (green meridians). From the right is the activation band (red meridians). From the left is the depressed activity band (red meridians).

The circular charts are interpreted as follows: The blue line is the left side. The green line is the right side. The red dashed line is the generalized measurement. The normal band is green.

We offer some examples below.

1. 68-year-old female test subject.

Diagnostic charts before application of the Aires Defender (Fig. 1) and after application for three days (Fig. 2).

Fig. 1

Fig. 2

 

These diagnostic charts show that initially energy resources are low – the average value is 28, with a norm from 25 to 55. Metabolic processes were retarded and there were signs of intoxication (Yin/Yang 1.36, with a norm of 0.9-1.1). There was a pronounced psychological and emotional load (top/bottom 1.44, with a norm of 0.8-1.2). Metabolic processes in the tissues of the locomotive mechanism were disrupted (left/right 0.88, with a norm of 0.9-1.2).

The charts is asymmetric due to the depression of some meridians and the activation of others, which indicates an imbalance of the oscillatory (wave) processes in the body. The test subject is in a high-risk group for developing serious diseases.

Under the influence of the Aires Defender, the level of functional activity was raised significantly, energy resources grew from 28 to 40, intoxication decreased, and the psychological and emotional state normalized.

The potential of most of the meridians were established in the range of normal values.

Test subject’s circular charts before the Aires Defender (Fig. 3) and after the Aires Defender (Fig. 4):

The blue line is the left side. The green line is the right side. The red dashed line is the generalized measurement.

Fig. 3

Fig. 4

 

Before using the Aires Defender, a pronounced asymmetry of the circular charts was observed due to the depression of some meridians and the activation of others.

After the effect, the chart’s asymmetry was substantially reduced and the majority of the measures were in the normal range (green band).

2. 46-year-old female test subject.

The test subject’s diagnostic chart at the beginning of the workday before the use of the Aires Defender (Fig. 1) and after 6 hours of working at a computer monitor with the Aires Defender (Fig. 2).

Fig. 1

Fig. 2

 

Before using the Aires Defender, the average energy resources were 32, with a norm from 25 to 55. The removal of metabolic toxins was retarded (Yin/Yang 1.31, with a norm of 0.9-1.1). Metabolic processes in the tissues of the locomotive mechanism were disrupted (Left/Right 0.74, with a norm of 0.9-1.2). The endocrine system was in a dysfunctional state.

At the end of a working day under the protection of an Aires Defender, energy resources did not fall, but rather increased from 32 to 39. Measurements for most of the meridians normalized, indicating an increase in the functional level despite the subject working for 6 hours at a computer monitor.

The test subject’s circular charts at the beginning of the workday (before application of the Aires Defender) (Fig. 3) and after working for 6 hours with the Aires Defender (Fig. 4).

Fig. 3

Fig. 4

 

Before applying the Aires Defender, a moderate asymmetry of the charts was observed due to the depression of some meridians and the activation of other meridians.

After 6 hours of working under the protection of the Aires Defender, the circular chart became more symmetric and measurements for the majority of the meridians were in the normal range of values (green band).

These tests using Nakatani functional diagnostics confirm that the Aires Defender is highly effective as a means of universal protection of the body against man-made electromagnetic radiation.

Especially obvious are the results of the 46-year-old test subject who, after working for 6 hours at a computer monitor, experienced an increased functional level accompanied by an increased capacity to work, the absence of fatigue, and the preservation of feelings of well-being at the end of the workday.

Effect of the Aires Defender based on electroencephalographic data.

We will now consider the affect of the Aires Defender on electroencephalograms (EEG) of the human cerebrum.

An electroencephalogram is a plot of a recording of the bioelectric activity of the cerebrum in the frequency range from 0.3 to 50 oscillations per second, divided into a number of bands (delta, theta, alpha, beta, gamma). An EEG can be used to evaluate processes occurring in the cerebrum and can be successfully employed in the diagnosis of various diseases and conditions of the central nervous system. The cerebral hemispheres generate radiation independently and may operate in concert or in an uncoordinated way. The cerebral hemispheres differ in their functions. The right hemisphere perceives intuitive, figurative, and abstract information, while the left hemisphere perceives concrete, logical information. For example, the center of speech is located in the left hemisphere. Human evolution is a result of both growth in the capacity of each hemisphere and an increase in the number and quality of interconnections between them. The number of inter-hemisphere connections is a manifestation of the coordination of the two hemispheres. A person is competent in all areas (physical, mental, social) only when the maximum number of interconnections between the hemispheres have developed in the brain and the interactions between them are harmonious and coordinated. The degree of coordination between the interconnections is marked by color in the charts: maximum coordination – pink, average – red, imbalance – dark blue, maximum imbalance – light blue.

We present examples of changes observed in EEG parameters during use of the Aires Defender. We note that in no case was there an worsening of the initial measurements. For convenience, the EEG being compared are placed next to each other. On the left is the initial data. One the right is the baseline of Aires Defender usage.

Figure 1 on the left presents the initial EEG of a 30-year-old test subject before use of the Aires Defender. Complaints were made about poor diligence at the computer due to rapid eye strain, and about a decreased concentration and reduced memory. The “flat” EEG clearly has low-amplitude alpha activity.

On the right is a second EEG, after using the Aires Defender for 30 days. There is a noticeable increase in the alpha rhythm. The test subject mentioned an increase in capacity to work and an improvement in concentration and memory.

Fig. 1. Electroencephalograms before and after application of the Aires Defender.

 

It can be seen in Figure 2 that the initial EEG recorded destructive interaction (dark blue) in the delta-1 band and the depletion of intercenter links. After a month of using the Aires Defender, the destructive interactions were eliminated, and the intercenter links in the delta-1 band were restored and concentrated. Ideally, each center should have a coordinated, consonant link (pink or red) with all others, which would increase its functional capabilities and the abilities of the entire system as a whole.

Before Aires Defender

After Aires Defender

Before Aires Defender

After Aires Defender

Fig. 2. Structure and nature of intercenter links
based on cross-correlation in the delta-1 band.

Fig. 3. Structure and nature of intercenter links
based on cross-correlation in the delta-2 band.

It can be seen in Figure 3 that the initial EEG recorded destructive interaction (dark blue) and the depletion of intercenter links, also in the delta-2 band. After a month of using the Aires Defender, the destructive interactions were eliminated, and the intercenter links in the delta-2 band were restored and concentrated.

 

Fig. 4 – The depletion of intercenter links was observed in the initial EEG. After a month of using the Aires Defender, the intercenter links in the theta band were restored and concentrated.

Before Aires Defender

After Aires Defender

Before Aires Defender

After Aires Defender

Fig. 4. Structure and nature of intercenter links
based on cross-correlation in the theta band.

Fig. 5. Structure and nature of intercenter links
based on cross-correlation in the alpha band.

Fig. 5 also shows a depletion of intercenter links in the initial EEG. After a month of using the Aires Defender, the intercenter links in the alpha band were restored and concentrated.

 

Fig. 6 – Destructive interactions (dark blue) and the depletion of intercenter links were observed in the initial EEG. After a month of using the Aires Defender, the destructive interactions were eliminated, and the intercenter links in all frequency bands were restored and concentrated.

Before Aires Defender

After Aires Defender

Before Aires Defender

After Aires Defender

Fig. 6. Overall structure and nature of intercenter links
based on cross-correlation in all bands.

Fig. 7. Restoration of inter-hemisphere equilibrium.

Figure 7 shows the phase delays (blue and dark blue) at the different leads before the application of the Aires Defender. This creates a functional asymmetry of the hemispheres. After application of the Aires Defender, symmetry is restored.

 

In summary, the EEG data presented indicates entirely positive changes in the functional state of the central nervous system with the use of the Aires Defender, in all examined cases.

Effect of the Aires Defender based on rheoencephalographic data.

The results of an rheoencephalogram serve as indirect evidence for the conclusion set forth above. They demonstrate the renewal of cerebral blood flow in a 38-year-old test subject when the Aires Defender is applied.

Before Aires Defender

After 20 minutes with the Aires Defender

After 40 minutes with the Aires Defender

Rheoencephalograms showing cerebral blood flow based on the rheoencephalographic index (RI) for a 38-year-old woman under the influence of an Aires Defender. The normal range is indicated in green. The blue color shows the level of blood flow. The RI norm is between 0.90-0.120.

The figure clearly shows an initial reduction in blood flow below the normal level and its gradual restoration to the norm after 40 minutes with the Aires Defender.

 

Conclusions

The Aires Defender dampens the toxic effect of EMR, which fosters the preservation and restoration of the body’s functional activity. As a result, the body operates at the highest level that corresponds to its genetic foundation.

A reduction in the aggressive effect of man-made EMR in the environment promotes:

  1. Increased energy resources and the body’s use of its own reserves to resist infection, especially viruses.
  2. Enhanced neuroendocrinal regulation.
  3. Synchronization of the central nervous system and renewal of a person’s mental and emotional state, which results in increased capacity to work and higher quality self-realization.
  4. Appropriate social adaption, which is especially important for the young body. Increased opportunities for constructive personal realization.
 

BACK UP TO THE TABS

The downloads below are from the Official AiresTech website.

 

Peer-Reviewed Studies 8 Publications

 

Scientific Publications 5 Publications

 

Download Clinical & Scientific Trials & Reports 25 Reports

 

Our Patents 22 Patents

 

Computer Modeling Calculations 6 Articles

 

Effective Range Calculations 4 Articles

 

Airestech Videos, presented for download in .mov format in a google drive Official AiresTech Videos

 

BACK UP TO THE TABS