Do-it-yourself anomalous zone indicator. Search and detection of geopathogenic zones GV eco-tester. Graviinertial geophysical system GGS

Let us immediately note that the treasure itself is not searched for by any equipment. You cannot set the parameters of the proposed pile of gold chervonets or precious stones. Therefore, all searches are carried out based on indirect signs, for example, by the resistance of an object, by its electromagnetic or magnetic properties. From this “stove” both geophysicists and treasure hunters have to dance (it has been noticed that modern treasure hunters become to a certain extent geophysicists, and geophysicists often become treasure hunters).
Let's take an ordinary soil metal detector. Strictly speaking, this is not a metal detector, but a detector of environmental resistance anomalies. If the resistance is low enough, there will be a signal that “there is a conductivity anomaly!” This is why “phantom” signals are often encountered - there is no metal, but the metal detector reacts. This means that for some reason the soil has very low resistance. The same applies to any other equipment - magnetometers do not look for iron, but for magnetization anomalies. And ground penetrating radars look for conductivity anomalies, not gold-silver underground passages. In other words, all searches are conducted not by direct, but by indirect signs.
For this reason, we will consider what additional indirect signs can help in the search for the desired object.
Electrical resistance. Due to the prevalence of hand-held ground metal detectors, this parameter is known to all archaeologists - both professional and amateur. According to resistance anomalies, coins and treasures are located in the uppermost layer of soil. But what to do if the treasure is at a depth of 50, 80 centimeters, or deeper - a meter, two, three? We already know that the resolution of any equipment decreases with increasing distance from the sensor to the object (see the article “Equipment accuracy and resolution”). And even a pot full of gold coins at a depth of 1.5-2 meters will not be detected either by an ordinary metal detector or by a “deep” one. And here we take a closer look at the object. Yes, the pot (Kubar, cast iron, etc.) is small. But in order to bury it, a man dug a hole. And at the same time, the structure of the soil was disrupted - and it is always horizontally layered, this is the geological feature of the sedimentary cover of loose rocks in which something can be buried. And the transverse size of this hole is greater, the deeper it is. After the treasure was lowered into the hole, the person naturally buried it, trampled the earth, perhaps even disguised it somehow. But it is no longer possible to restore the soil structure in this hole - the layers of rock are hopelessly mixed, and the resistance of this area has changed! As a result we have a wonderful an indirect sign - a low-amplitude negative resistivity anomaly above the pit.

Fig. 1 Geoelectric section model: reduced resistance above the pit and increased resistance above the buried foundation.

And if hundreds, even thousands of years pass, the conductivity anomaly will remain. No metal detector will detect such an anomaly - metal detectors are “sharpened” to a different level of resistance difference, much sharper, corresponding to the difference in resistance between metal and soil. But equipment capable of detecting minor conductivity anomalies has long existed in exploration geophysics. Some types of this equipment have been successfully modified to solve archaeological problems. First of all, these are archaeological resistance meters (English device RM15 and domestic “Electroprobe”) and ground penetrating radars(see section "" and "").
The resistance meter is a frame with electrodes (Fig. 2), between which the soil resistance is measured.

Fig.2. Resistance meter RM15. Stretched cords are visible, indicating the profiles of a uniform network.

Measurements are made point by point, along pre-selected routes. This method can be used to carry out simple search work in a specific area, when the task is posed something like this: “They say that my great-grandfather buried a pot of gold on his property, presumably in this garden or that vegetable garden.” Or: “The estate was burned by the owners, who fled with small hand luggage, having previously buried larger valuables (silverware, dishes, etc.).”

Walking with electric probe Based on the indicated sites with a distance between measurement points of approximately 0.5 meters, it will be possible to say with a high degree of probability where a hole was ever dug here, to what depth and what width. In principle, the method of resistance, depending on the distance between the electrodes, makes it possible to easily penetrate to depths of tens and even hundreds of meters, but archaeological equipment is focused only on depths of up to 2-3 meters. Deeper than that, its resolution drops sharply, and there are practically no archaeological objects at these depths.

Another problem solved by the resistance method is from classical archeology: a specific site is given, and it is necessary to find out whether there are buried foundations, remains of walls, voids, or underground passages underground. And if so, how are they located?

With the help of the same " Electric probe"or RM15, we will inspect the area using a pre-determined network of profiles (see section " "). Then a map of the electrical resistance of the site is constructed (Fig. 4), according to which archaeologists plan further excavations.
Field work with georadars is not much different from using the resistance method (see Fig. 3) - the same movement along profiles during area surveys or along arbitrary routes during searches.

Fig.3. Working with GPR

The results are also presented in the form of electrical resistance maps of the area or in the form of three-dimensional sections (Fig. 4, 5).

Fig.4. Map based on the results of area work with an electric probe.

However, GPRs have certain advantages - firstly, GPR provides a more accurate determination of depth than the resistance method. Secondly, under some favorable conditions, GPR is capable of distinguishing individual small (10-15 cm in size) objects at depths of up to 50-80 cm. The disadvantages of GPR are its high cost and the need for highly qualified users (see article “”). Just like the resistance method, georadar photography reveals buried pits, foundations, and other structures. The depth at which the GPR shows acceptable resolution does not exceed 1.5 meters (usually 50-80 cm). At great depths, naturally, the resolution drops sharply, and structures associated with human activity are obscured by geological formations. Let us note how in Fig. 5 the detail of the section changes sharply with depth - already at a depth of 2 meters only objects with a size of at least 1 meter are visible.

And let's return again to treasure hunt. Of course, the more we know about an object, the greater the chance of detecting it. Now, if it is known, for example, that something is hidden in an underground passage or in the cellar of a house that was destroyed and completely disappeared from the face of the earth, then this is already a plus! The fact is that the walls of buildings, foundations and voids (and any combination of them) also give conductivity anomalies, but not in a positive direction, as is the case with pits or metals, but in a negative direction: these are objects with high resistance (Fig. 1 ). And such objects are confidently identified using the resistance method or ground penetrating radar. Thus, we have another stable indirect sign - an abnormally high resistance of the object.
Another group of indirect signs is related to the magnetic properties of the medium:
Magnetization.
All geological rocks - rocky, loose, sedimentary - have magnetization to varying degrees. But there are objects whose magnetization is hundreds and thousands of times higher than the magnetization of rocks - these are, in 99.9% of cases, products of human activity. The exceptions are meteorites (of interest in themselves) and iron ore deposits, which are, of course, very rare.

The magnetic field has a remarkable property: it attenuates in proportion to the 3rd power of the distance between the measuring device and the source of the anomaly, and the electromagnetic field is proportional to the 6th power.
In other words, magnetic anomalies caused by any objects attenuate 1000 times slower than the electromagnetic field signal used in metal detectors and ground penetrating radars, reflected from a conductive object. This property makes magnetic research one of the most in-depth methods used in archaeology. At searching for iron objects no other method compares to magnetic prospecting in terms of efficiency. Magnetometers are also good at detecting accumulations of ceramics and burnt wood. But the method also has a significant limitation - no metals, except iron, have any noticeable magnetization, and therefore are not objects for magnetic prospecting.

Let's return to indirect search features. So, if we have a clearly defined magnetic anomaly of the appropriate size and intensity and see that the object is located at the expected depth (methods for determining the depth of an object are outlined in the ““ section), then with a high probability we can say that we have found what we were looking for! Everything here is clear and simple: magnetic prospecting does not produce “phantom” anomalies - the source is always obvious. Another interesting effect has been noticed in magnetic fields. If in geological rocks that have a certain magnetization, part of this rock is removed, then a low-intensity negative magnetic anomaly appears in this place, the so-called. "shortage of magnetic masses". Thanks to this effect, in some cases underground passages and voids can be detected, which will be recorded on the surface as low-intensity negative anomalies. Examples of detection of this kind of objects are known, and some are even presented on the Internet. Thus, low-intensity negative anomalies can also be an indirect sign of the desired object.

To summarize, we can say the following: the most effective for searching will be the use not of any one method, as is usually the case, but of a certain rational set of methods, each of which will make it possible to make its own contribution to the common cause. In exploration geophysics, there is a whole section that deals with the integration of methods for solving a variety of problems. Foreign archaeologists always use a set of methods - this approach allows them to quickly and cost-effectively solve their problems. For this reason, we considered it useful to propose sets of methods that solve the most typical search and archaeological problems in the article “Electrical prospecting in archeology.”

At the Veles Center for Scientific and Applied Research on Energy Information Security, the development of modern electronic devices for studying energy information interactions between humans and the outside world is in full swing, making it possible to diagnose fine-field radiation of living and inert natural objects at a new, non-traditional level. Already this year, a whole line of products from the Scientific Research Laboratory of Technical Design “VEGA” has appeared in the field of studying the “aura” of living and non-living objects. This line includes such models as “VEGA-2”, “VEGA-10”, “VEGA-11” and “VEGA-D 01” (“Thumbelina”).

Unique and superior to well-known world analogues is the VEGA-11 device, which can become an indispensable assistant in determining geophysical anomalies and identifying geopathogenic zones both indoors and in the field. Moreover, weather conditions (rain, dampness) do not affect the operation of the device.

This device has unique properties, surpassing the Russian development of the IGA-1 type, due to the fact that it is based on new scientific approaches. Their essence lies in the fact that in a normal electromagnetic field, at the interface between two media with different conductivities, a double electric layer appears, which creates a weak electric (electromagnetic) field, i.e., if there is an object underground that contrasts with the natural (continuous) field of the Earth, then by fixing these changes on the surface (intensities, polarization ellipses, frequencies, etc.) it is possible to fix this object. Using the high-frequency field illumination method, we excite this weak electromagnetic field, which allows us to more confidently identify anomalies in the natural electromagnetic field.

In practice, this makes it possible to detect centuries-old burials, foundations of destroyed buildings, voids in the ground (tunnels, caches, filled-in dugouts, underground passages up to 12 meters deep, etc.). The device also registers human remains, metal objects, metal and plastic pipelines, communication lines, etc. The device also quite successfully registers a person’s aura, which the device is able to record at distances of about five meters through brickwork up to a meter thick, which can be used to determine the presence of people inside (outside) the premises (hostages, criminals, etc.).

The device was tested and showed excellent results in terms of energy information survey of the area near Lake Bolduk (Belarus). The work was carried out at the request of the Chairman of the ICCC, Ph.D. Romanenko Galina Grigorievna and Deputy Chairman of the Presidium of the International Non-Profit Organization MAIT, Doctor of Technical Sciences, Professor, Academician of the BAN Sychik V. A. during the scientific and practical conference “GIS-Naroch 2014”.

How to detect geopathogenic zones? Today, devices have already been created that allow this to be done. But there are few instruments, and there are many geopathogenic zones. Therefore, in different cases, you should use those methods that allow you to solve the problem in the simplest and at the same time effective way.

Of the methods known today for detecting zones of geopathogenic radiation, it is advisable to distinguish four - helium, dowsing, magnetic differential and laser. The first two can be considered widely tested, the last two are only tested, for their use it is necessary to create appropriate field devices...

Helium method for detecting geopathogenic zones

The helium method for detecting geopathogenic zones was once proposed by Academician V.I. Vernadsky, who bequeathed “to study helium and the respiration of the Earth.” I.N. Yanitsky, Candidate of Geological and Mineralogical Sciences, head of the Center for Instrumental Environmental Observations and Geophysical Forecasts, conducted many years of research on this problem. He found that it is helium that reveals faults in the earth's crust much more clearly than any other geophysical methods. And atmospheric processes are largely determined by the dynamics of the earth's crust.

Several questions arise here: why do faults appear in the earth’s crust, why exactly helium is released during this process, and, finally, how does this relate to the prediction of earthquakes?

The answer to the first question is that the Earth, like all celestial bodies, continuously absorbs ether from the space surrounding it. This ether is partially absorbed by ethereal vortices - protons, the stability of whose structure is limited. The excess mass accumulated by them is discarded after a certain value; under favorable conditions, new nucleons are formed from such excesses, and a new substance is formed.

Evidence that new matter is continuously being formed in the bowels of the Earth is the established fact of the expansion of the Earth and the release of new matter in the world system of rift ridges. This means that nuclear reactions are taking place in the depths of the earth, as evidenced by the release of helium, the nuclei of the atoms of which are alpha particles consisting of four nucleons - two protons and two neutrons.

Alpha particles are released from atomic nuclei because the binding energy of nucleons inside an alpha particle is an order of magnitude greater than the binding energy of nucleons between alpha particles. In fact, if the binding energy of nucleons in an alpha particle is 28.3 MeV, i.e. 7.1 MeV per nucleon, then the binding energy of alpha particles with each other is about 1.5 MeV per nucleon, these bonds are weaker and are destroyed more easily.

The accumulation of matter in the mass of the Earth, caused by the absorption of ether, leads to both mechanical stress, i.e. to the stresses of the electronic shells of atoms, which in turn transmit stress to the nuclei of atoms, and to the destruction of interatomic and intermolecular bonds. This causes the appearance of faults, rock shifts, earthquakes, and volcanic eruptions. And since the absorption of ether by celestial bodies will occur as long as matter exists, this means that all these phenomena will always exist, and there is no hope that they will one day stop. Therefore, the task is to know about them, predict and, if possible, minimize the negative results of their actions.

Dowsing method for detecting geopathogenic zones.

The easiest way to detect local geopathogenic zones is to use the dowsing method, which is accessible to almost everyone, but requires a little training. The essence of the method is that the search for zones is carried out using so-called “frames”, which mean metal wires bent at right angles, best of all knitting needles with a diameter of 2 mm and a length of 40 cm with one end pointed. 1/3 of the length of the knitting needle is bent at right angles to the rest. The short part with a pointed end is inserted into the body of a regular rod fountain pen instead of a rod. The long end should be blunted for safety reasons. The frame is ready (Fig. 2).

The operator takes a frame in each hand, tilts them slightly forward so that they are parallel to each other (Fig. 1a, b), and walks around the site or room.

The operator's sensitivity can be checked by holding the frames up to the wall. Approximately 30–40 cm from the wall, the frames will begin to diverge (Fig. 1c).

Above the geopathogenic zone, the frames themselves will intersect without any desire from the operator (Fig. 1d).
When leaving the zone, the frames become parallel again.

For people with a weak own biofield, the frames do not work, because the angle of deflection of the frames directly depends on both the field strength of the zone and the intensity of the operator’s own biofield. However, the vast majority of people have potential dowsing abilities, but working with the framework requires a little training. Almost anyone can master this.

A variant of the dowsing method is to detect zones using a pendulum - a metal object suspended on a silk thread.

The operator holds in his hand a thread 40-50 cm long, on which a metal object is suspended, preferably a gold ring. Having calmed the pendulum over a place free from the zone, the operator slowly moves his hand to the place under study. If it hits geopathogenic radiation, the pendulum begins to make circular movements, which indicates the presence of a geopathogenic zone in this place, and also that the radiation has a vortex structure: a metal object with high ether-dynamic resistance experiences an accelerating force from circular ether flows , which cause the pendulum to make circular movements.

The dowsing method for detecting geopathogenic zones is one of the simplest and most accessible methods, but it has a significant drawback - subjectivity. This drawback is connected, firstly, with the fact that not all people have a frame or pendulum working, since here it is necessary that the operator himself has a sufficiently strong personal biofield, and, secondly, that the operator has completed at least a minimum training course or workout. The dowsing method, in addition, causes distrust among skeptics who see in it elements of dishonesty and anti-science.

However, the method can be recommended for detecting relatively small areas in apartments, office and work premises. Considering that there is an absolute majority of such zones, and their negative impact on people is quite noticeable, it is advisable to train dowsing operators and use the dowsing method, regardless of the bias of skeptics.

To increase the reliability of research, it is advisable to conduct research by two or three independent operators and compare the results of their research, which will undoubtedly increase their reliability and the degree of trust in them.

Magnetic differential method for detecting geopathogenic zones.

The magnetic differential method for detecting geopathogenic zones is based on the fact that the Earth’s magnetic field in places of geopathogenic radiation is distorted both in magnitude (magnitude) and in direction. Considering that the boundaries of geopathogenic zones in the horizontal plane are quite clearly defined, a method for identifying the difference in the readings of two magnetic field sensors at points separated by 1-1.5 meters can be recommended. It does not matter whether the Earth’s magnetic field at these points differs only in magnitude, only in direction, or in both parameters together. What is important here is the fact that the magnetic field at these points is different.

This method can be used in the same place as the dowsing method, but it is more expensive, this is its disadvantage. Its main advantage is that it is an instrument method, its readings do not depend on the operator’s abilities.
The device can be recommended as a portable device for identifying local geopathogenic zones in apartments, work and office premises, factories, etc.

Laser method for detecting geopathogenic zones

A laser method for determining ethereal flows was developed by V.A. Atsyukovsky and tested in laboratory conditions during studies of ethereal wind. The method is based on the fact that the laser beam bends under the influence of the pressure of the ethereal flow on it, just as a cantilevered beam bends under the influence of wind load. The deflection of the end of the laser beam is proportional to the density of the etheric flow and the square of the flow speed and the square of the length of the laser beam (Fig. 5.2).

The deviation of the laser beam spot from its unperturbed position is recorded by two pairs of photodiodes or photoresistors, respectively included in two bridge electronic circuits. One pair of photodiodes (photoresistors) is located horizontally and records the beam deflection in the horizontal plane, the second pair is located vertically and records the beam deflection in the vertical plane.

To increase the sensitivity of the device by increasing the length of the laser beam, reflection of the beam from mirrors with surface reflection can be used.

The method can be recommended for measuring the direction and speed of aether flows and their changes in mines, on the surface of the earth, on water and under water, in the air and in space, both on fixed bases and on moving objects for various purposes.

This device records the displacement of the ether in two directions - horizontal and vertical, therefore, to determine the direction and speed of the ether flows, two devices are needed, located in the horizontal plane perpendicular to each other. Recording of readings of deviations of the laser beam from the neutral position can occur continuously and automatically and be processed continuously, if necessary.

Graviinertial geophysical system GGS

For a short-term (3 min. - 1 day.) instrumental forecast of earthquakes based on new ideas about the physics of the source, E.V. Barkovsky (IFZ) developed a Graviinertial Geophysical System (GGS). This monitoring and measuring system allows, with 100% probability, “not to miss” the harbinger of an earthquake occurring within a radius of 50-60 km from the observation point. Dozens of precursors of near and distant seismic events have been recorded.

The system includes two tiltmeters, a seismogravimeter, a seismometer, a geophysical integrator, a barograph, a thermovariometer, a control panel and a recording unit.

Purpose of the system:
– forecast of nearby (up to 50 km) earthquakes in various geophysical fields, control and registration of their short-term precursors (gravitational disturbances, gravitational pulses and seismic-gravitational oscillations);
– registration of distant, close and local earthquakes in a wide range of frequencies, as well as microearthquakes, microseisms, atomic explosions, etc.;
– comprehensive studies in the epicentral zone of “unrecognized” earthquakes for the purpose of identification;
– identification of tectonic faults active in a given era;
– forecasting other natural disasters (hurricanes, tornadoes, cyclones, floods, droughts, landslides, etc.) based on monitoring the geological environment;
– registration of geodynamic processes (earth tides, crustal movements, landslides, karst sinkholes, etc.);
– research in the area of ​​the planned construction of large engineering structures in order to determine the suitability of the site for development based on geodynamic and seismotectonic characteristics.

5.2. Some methods for neutralizing geopathogenic radiation

Selecting the location of critical facilities

Choosing a rational living space in which a person spends most of his life is a primary condition for ensuring life safety. The well-being and health of a person depends on the specific location of the office and work premises, apartment, house, cottage or cottage. A person is surrounded everywhere by beams of energy radiation invisible to the eye, which affect him. Such radiations were described by the Indians four thousand years ago, but their nature has not yet been clarified, and only now, with the advent of ether dynamics, has it become possible to understand this.

The entire surface of the Earth is divided into “sick” and “healthy” zones. Energy lines up to 20 cm wide and with a step of 2-2.5 m are located from North to South and from East to West (Hartmann grid) and the second group of lines, rotated by 450 in relation to it, with a step of 3-4 m (Harry grid) . At the intersection of these lines, energy increases occur and “sick areas” are formed that are dangerous to human health.

Water interrupts the radiation of these networks: there is no radiation above bodies of water.

Areas around churches, as a rule, always have a positive effect on people. Churches were never built in geopathogenic zones; apparently, the builders knew how to identify them. But another explanation is also possible: churches, due to the peculiarities of their architecture, neutralize the radiation of geopathogenic zones, and this opens up additional opportunities for research into this physical phenomenon. Unfortunately, official science has not yet gotten around to studying geopathogenic zones.

When choosing sites for the construction of particularly important facilities such as nuclear power plants, chemical, oil refineries, metallurgical plants or launch sites, it is necessary to carry out geological mapping of underground faults using the helium method. Regardless of this, the sites should be examined by several independent dowsing operators, each of whom should independently draw up site plans with zone marks for subsequent comparison of them with each other and making a decision. If by this time a magnetic differential device has been developed, then its readings should also be recorded in a similar way and used when comparing measurements.

Neutralization of geopathogenic radiation

It is almost impossible to destroy a source of geopathogenic radiation located deep in the earth; there are no real means for this, but there is no particular need for this, because in most cases it is not the sources themselves that are harmful, but their radiation.
The vast majority of geopathogenic zones emit weak constant radiation, and it is this radiation that is present in most apartments, work and office premises, harming the health of millions of people around the globe.

The easiest way to combat the influence of geopathogenic zones is to move sleeping and working places to places where there are no such zones. In principle, this is possible, since most zones have small sizes of units and fractions of a meter. But it’s really difficult to do this, since apartments, offices, and workplaces at enterprises have already been organized, rearrangements are extremely undesirable, and often impossible.

Some inventors have developed various neutralizers of geopathogenic radiation, manufactured, and in some cases tested prototypes of them. These are usually flat metal structures in the form of spirals, lattices, mirrors, pyramids or some crystalline minerals several centimeters in size. Testing the effectiveness of such neutralizers has shown that they actually reduce the intensity of geopathogenic radiation, but not completely. In addition, most of them are difficult to manufacture and expensive, their selling price ranges from one to several thousand rubles. This is primarily due to the complexity of their manufacture.

It should be noted that the common and fundamental error of these inventions is that they all assume a regular structure. As a result, one regular structure (geopathogenic vortex radiation of the ether) is modulated by another regular structure (neutralizer), which leads to the creation at its output of a third regular structure - a transformed vortex, the intensity of which is less than before entering the neutralizer, but remains as such.

Therefore, the task is to create an irregular structure of the neutralizer, which would not allow organizing a new regular structure of the etheric flow at its output. These requirements are satisfied by the usual tangled insulated metal wire commonly used for winding transformers. In a tangled ball of such wire there are enough empty gaps through which the etheric flow will penetrate. At the same time, there are enough metal surfaces around which the etheric flow is slowed down, which converts elementary laminar radiation flows into gradient flows that form microvortices of a toroidal structure. These microvortices will scatter in all directions, destroying the main vortex and thereby neutralizing geopathogenic radiation.

Studies of the effect of such neutralizers, made of 100 meters of thin insulated wire with a diameter of 0.1 to 0.2 mm and flattened into a cake with a diameter of 5-8 cm, have shown that geopathogenic radiation disappears immediately after such a device is placed on the floor or ground neutralizer. But this radiation disappears above the neutralizer and remains for some time under it, which once again confirms that the source of such weak geopathogenic radiation is not space, but the body of the earth.

If such a neutralizer is placed on a zone and immediately removed, the zone will be restored in about five minutes; If you keep it in the zone for an hour, recovery will occur only after a day or two. In this case, the area under the neutralizer also disappears. If the neutralizer is lying down all the time, then the zone no longer appears, at least as long as the neutralizer is in place. But if you remove it, the zone will recover after some time.

Taking into account the effectiveness of such a neutralizer, its absolute passivity and therefore harmlessness, as well as its exceptional low cost (in manual version its selling price is 50 rubles, in mass production it can be significantly less), it is advisable to conduct official tests with such a neutralizer and recommend it for serial production. production.

For better preservation, it is advisable to seal the wire in any insulator (paper, cardboard, cement, ceramics, concrete, plastic, etc.), after which the neutralizer is ready for use.

The neutralizer can be used directly indoors when placed on the floor - under a carpet, under a bed, under a table or under a chair, in which case the wire can be sealed in a thick paper envelope. However, it is best to place the neutralizer in the basements of houses, then it is advisable to seal it in a concrete, plastic or ceramic cake.

Presumably, such neutralizers can significantly protect road traffic in the so-called “damned” areas. In this case, neutralizers need to be laid on the road every two meters along the sides and in the center of the road, rolling the wire directly into the asphalt. For road neutralizers, it is advisable to use transformer varnished wire with a diameter of 0.4-0.5 mm and a length of 100-150 meters, winding it into a chaotic lump and then flattening it into a cake with a diameter of 10-15 cm, no more than one centimeter thick. The total number of neutralizers per kilometer of road will be from 2 to 5 thousand, depending on the width of the road surface. The same can be recommended for mines; here it is advisable to mount neutralizers not only on the floor, but also on the walls and ceiling of the adits. This, in any case, can protect mines from spontaneous fires.

An assessment of the effectiveness of road neutralizers can, unfortunately, be made only on the basis of accident statistics, which, after installing the neutralizers, should either stop completely or be significantly reduced.

The fight against poltergeists indoors can be done in a similar way, with the only difference being that in each room it is advisable to place several pieces of indoor neutralizers on the floor and on the walls with a step between them of 1-1.5 meters. Since poltergeists are temporary phenomena, after some time (approximately 2-3 weeks) all neutralizers can be removed until the next time, which may not happen.

In already built especially dangerous objects, it is advisable to install neutralizers around them and in basements, similar to road ones. In the event of an etheric release, these neutralizers can significantly weaken it or even eliminate it completely. At the same time, unlike apartments, neutralizers must be firmly fixed to the floor, preferably in basements.

Organization of observations of earthquake precursors.

The proposals outlined above do not guarantee that strong local earthquakes will not occur; therefore, they are necessary both for research in the area of ​​the planned construction in order to determine the suitability of territories based on geodynamic and seismotectonic characteristics and for research in built-up areas of industrial zones and residential areas in order to identify possible tectonic faults underneath them and determine the extent their activity, as well as equipping geodynamically unfavorable territories of large cities with special geophysical devices for monitoring the state of the geological environment.

conclusions

1. Currently, several methods have been created for detecting geopathogenic radiation:
– the helium method, based on the study of helium radiation from the depths of the Earth and allowing the detection of underground faults, which are the main source of ether-dynamic emissions and earthquakes leading to disasters;
– dowsing, differential magnetic and laser methods that make it possible to detect weak geopathogenic radiation that is harmful to human health;

These methods are not perfect and research work needs to be continued on them, as well as on other methods for detecting geopathogenic radiation.

2. Methods have been developed to minimize the negative consequences of geopathogenic natural phenomena:
– recommendations for the inspection and selection of construction sites for particularly critical civil, industrial and military facilities;
– recommendations for neutralizing geopathogenic radiation using wire neutralizers of a chaotic structure;
– recommendations on the rules of conduct for crews of aircraft and ships entering geopathogenic zones.
These techniques are preliminary and work on them needs to be continued.

Conclusion

From the presented material it follows that one of the main reasons for the massive deterioration in human health, as well as the cause of many accidents and disasters, are geopathogenic phenomena occurring throughout the entire globe. These phenomena are associated with ether-dynamic phenomena, primarily with the continuous absorption of ether by the Earth (as well as all celestial bodies) from the surrounding outer space. This means that such phenomena will accompany the entire history of the Earth and will never stop. This implies the need to conduct research both in the field of identifying the specific causes of each of the negative events, and in determining the correlation of such phenomena with geological, atmospheric and cosmic factors, and the investigation of all kinds of accidents and disasters should be carried out not in the “man-machine” system, but in system "nature - machine - man".

Particular importance must be given to the theoretical justification of the physical essence of geopathogenic phenomena based on ether-dynamic ideas about the structure of the physical world. This means that modern fundamental science is obliged to reconsider its attitude to the existence in nature of the world physical environment - the ether, recognize its existence and seriously engage in the study of all processes that are in one way or another connected with the ether and have an etherodynamic nature. In physical theory, the ether-dynamic direction should become a priority.

Currently, the first ideas about the etherodynamic essence of geopathogenic phenomena have appeared and some recommendations have been developed for detecting geopathogenic zones, for predicting geopathogenic phenomena and for minimizing and even preventing the undesirable consequences of such phenomena. However, this is clearly not enough. Therefore, it is necessary to carry out research work aimed at both collecting the necessary information and studying geopathogenic phenomena, as well as creating an instrumental base and developing the necessary methodology for predicting geopathogenic phenomena, minimizing and preventing undesirable consequences.

On the basis of the new theory - etherodynamics, it is necessary to carry out appropriate research in all those areas to which etherodynamic processes may be related, such areas are, first of all, cosmic and geological processes. The result of theoretical and applied research should be a clarification of certain provisions of a number of regulatory documents or even a revision of some of them. This applies, first of all, to SNiPs (Building Norms and Rules), including rules for selecting construction sites for especially critical objects, to rules for laying routes for ships and aircraft, to instructions for crews in the event of emergency situations, and to a number of others.
Considering the urgency of the problem, it is necessary to create a Federal Center for Geophysical Forecasts and Safety to ensure safe and accident-free activities of all sectors of the country’s national economy, to prevent the implementation of projects that pose a direct danger not only to the environment, but also to all life on Earth. Facilities in all sectors of the national economy should be under the patronage of such a Center, both at the stage of selecting sites for future facilities under construction, and at constructed and operated facilities.

Excerpts from the book

V.A.Atsyukovsky. Detection and neutralization of geopathogenic radiation from the Earth

From the publisher: The book provides data on geopathogenic phenomena on the Earth's surface, leading to problems with human health, mass diseases, as well as accidents and catastrophes. The physical (ether-dynamic) mechanism of geopathogenic radiation and the relationship between negative phenomena, activation of geopathogenic zones and space are shown. Existing methods for identifying zones of geopathogenic radiation are reviewed and some recommendations are given for preventing their consequences.

The objective prerequisites for the transition from the existing practice of identifying disasters and accidents to activities based on the concept of predicting and preventing destructive consequences from natural and man-made disasters are outlined.” In the Appendices: transport, aviation, maritime accidents (the cross of Moscow, the loss of aircraft, submarines, etc.) associated with geopathogenic radiation.

Addressed to “everyone interested in the problems of interaction of natural phenomena, reliability of technology and human health.”

GDV Eco-Tester - a device for searching
and detection of geopathogenic zones

People discovered anomalous zones in the process of observing the nature around them - they noticed anomalous trees, twisted beyond belief, strange behavior of animals in certain areas of the earth, etc. In ancient times, they used the ability of a living organism to respond to the slightest anomalies in environmental parameters and identified anomalous zones using frames (vines). Since then the name “dowsing” has come into use. In another way it is called dowsing, however, animals also have the ability to dows. In the case of animals, scientists call dowsing their ability to navigate in space along the lines of the Earth’s magnetic field.

The result of dowsing (dowsing) very much depends on the state of the specific operator of the frame (vine) during location. If the operator does not feel very well or he wants too much to find something anomalous, then the results of his work are very difficult to trust. Depending on his mood, he will produce different results even when in the same place. That is why scientists do not trust such methods, since in science, and directly in measurements, a certain reproducibility of results should be observed under the same external conditions. That is why scientists are working to develop instrumental, as they believe, reliable and objective methods for measuring such phenomena. However, until recently there were no scientific methods that would allow instruments to determine anomalous (geopathogenic) zones.

Device "GDV Eco-Tester"
with antenna "GDV Satellite"

The IGA device is well known among dowsers and dowsers in Russia. It is based on the principle of measuring changes in the level of the Earth's magnetic field. Of course, if anomalous zones (geopathogenic zones) are formed due to anomalies in the Earth’s magnetic field, then such a device will work, but if the anomalous zone is of a different nature, it will be powerless or not so accurate.

As a result of long-term scientific research by a group of scientists led by Professor Korotkov K.G. and Orlova D.V. (his graduate student from 2007-2010) together with the company "KTI" was developed, which allows you to measure the level of activity of the surrounding space. During the research, it was found that the presence of anomalous zones is directly related to the level of activity of the space.

Anomalous zones. What is the activity level of a space?

In the article dedicated to, we have already said on the basis of what we classify anomalous zones and their impact on humans. For clarity, we present the developed scale.

Anomalous zones - definition
on the activity scale

The activity of space is an indicator of the speed of various processes. How can you imagine it? Let's conduct a mental experiment: let's plant the seeds of a flower in two different rooms with the same microclimatic conditions in identical pots with the same soil. We will water both pots on the same schedule and with the same amount of water from an identical source. As a result, after a certain time has passed, we will see that in one room the flowers sprout earlier and grow faster, and also produce more beautiful and larger flowers compared to flowers in another room. From this mental experience, we can say that in one room the activity level of the space was higher (where the flowers grew faster) than in the other. However, if desired, in such an experiment a skeptic will find a lot of justifications for the results obtained, while excluding the concept of space activity. Until recently, there was no scientific (so-called objective) method for directly assessing the activity of space. We had to be content with the opinions of dowsers or the results of experiments similar to the above, which mediocrely (the rate of germination of seeds, the rate of development of biological objects, etc.) made it possible to determine the level of activity.

The measurement technique we developed using made it possible to give a quantitative assessment of the space activity parameter. When carrying out measurements, the device provides a certain set of digital data, which are subsequently processed in special software and then undergo statistical processing. The result is a graph of changes in space activity over time.

To obtain a more or less complete picture of changes in space activity in a certain room, due to the fact that it changes over time and fluctuates around a certain average value, and also depends on the time of day, time of year, lunar phase, etc., it is necessary to make these measurements for at least 30 minutes, preferably a whole hour. By averaging the values ​​of space activity over such a period of time, it is possible to draw a conclusion with a fairly high probability about how this level of activity will affect a particular person.

At the moment, articles are being written in various journals to substantiate the physical and mathematical model that describes such measurements, which will later be posted on our website. Until articles are published in peer-reviewed journals, we will not describe in more detail the functioning of the invented measurement system.

Operating principle of the measuring system

Capacitive antenna
or sensor

The basic principle of operation is to “measure” the electrical capacitance of the surrounding space. The capacitance is calculated between the GDV Satellite antenna and the Earth.

The procedure for forming gas discharge images (GDI) using a GDV device is as follows. A metal cylinder (test object) is placed on a transparent quartz electrode, on the reverse side of which a transparent conductive coating is applied, to which voltage pulses from the generator are applied for a specified period of time. The pulse power and duration of exposure are set programmatically by the operator on a personal computer. At high field strength, an avalanche and/or sliding gas discharge develops in the space between the test object and the plate, the characteristics of which are determined by the properties of the external circuit - that is, the test object, the wire connected to it, the GDV Sputnik antenna and the space between the antenna and earth. The spatial distribution of the discharge is recorded by a specialized video camera based on a CCD matrix located directly under the transparent electrode. The video converter digitizes the image and transfers it to a computer for further processing. GRIs are processed in a specially developed software package, where image parameters are calculated, such as luminous energy, illumination area, average discharge intensity, etc. GRI parameters correlate with the physical characteristics of the external circuit, in particular, electrical capacitance and resistance.

Scheme of the experimental setup.
1 – metal cylinder; 2 – “GDV Sputnik” antenna; 3 – high-voltage pulse generator; 4 – transparent conductive coating;
5 – transparent quartz electrode; 6 – video converter; 7 – gas discharge; 8 – USB drive; 9 – 12V battery

The Earth is a kind of huge crystal in the shape of a dodecahedron (a figure of 12 pentagons) with faces, nodes and geoenergetic lines of force connecting them. To date, numerous lattice structures with cells of various shapes and sizes have been discovered: rectangular (E. Hartmann, Z. Wittmann), diagonal (M. Curry, Alberta), etc. These are the so-called “global geoenergy grids”.

The "lattice grids" of the Earth are field formations in the form of lines of force, planes and energy nodes. They arose as a result of the complex interaction of numerous geophysical factors (in particular, piezoelectric and magnetohydrodynamic processes in the earth's crust) and cosmic processes. It turns out that a thin energy network, like a grid of conventional lines of meridians and parallels, is thrown over the globe, the only difference being that it really exists and is perceived in different forms by all living organisms.

Accumulations of electrons, ions and active radicals of gas molecules are recorded in the grid strips. And in the crosshairs of the stripes local zones are formed ( geopathogenic zones) in the form of spots, a high concentration of radiation in which is considered harmful to humans.

If we consider the spatial structure of the grids, then it represents a series of separate intersecting vertical “walls” (of different widths for different grids), at the intersection points (nodes) of which compacted “pillars” are formed. The most studied is the global rectangular coordinate grid of E. Hartmann (G- network) and M. Curry's diagonal grid (D-net).They form an integral component of our habitat.

Rectangular Hartmann grid (G-net)called “global”, or “general”, since it covers the entire earth’s surface and has a lattice structure of a fairly regular shape. The grid is an alternating series of parallel stripes (walls) about 20 cm wide (from 19 to 27 cm). The emission of the stripes is non-uniform : it consists of a primary part (2...3 cm wide) with pronounced electromagnetic properties and a secondary part, formed by radiation of various fields, active radicals of gas molecules, covering the primary part in the form of a kind of “fur coat”.

The Hartmann grid is oriented according to the cardinal directions (north - south, east - west). Each of its cells is represented by two stripes: shorter (from 2.1 to 1.8 m, on average 2 m) in the north-south direction and longer (from 2.25 to 2.6 m, on average 2.5 m ) in the east-west direction. Such a rectangular “chessboard” covers the entire surface of the globe and rises upward. So, on the 16th floor of a building and above it is determined in exactly the same way as at the surface. Building materials (brick, reinforced concrete) have almost no effect on it.

The stripes of the Hartmann grid are polarized and are divided into conditionally positive and conditionally negative (or, respectively, magnetic and electric). In this case, the direction of their energy flow can be upward or downward. At intersections they form so-called " Hartmann nodes " about 25 cm in size (right-, left-polarized and neutral). Every 10 m in the grid grid there are stripes of greater intensity and width.

The second lattice structure is diagonal curry mesh(D-net). It is formed by parallel stripes (walls) directed from southwest to northeast and perpendicular to this direction, i.e. from northwest to southeast, and intersects Hartmann's rectangular grid diagonally.

Research by scientists shows that these nets have a negative effect on the human body. In principle, the mesh “walls” themselves are safe. A certain danger is associated only with grid nodes, i.e. with places where the main lines intersect. Nodal areas of the mesh can adversely affect a living organism. Constant stay in the nodes of the mesh leads to increased fatigue, nervousness, and the occurrence of chronic fatigue syndrome. Very sensitive people may develop more serious illnesses.

Although you shouldn't overdramatize the situation. Hartmann grid nodes are dangerous only with prolonged exposure. It is not recommended to sleep or work in them. But, for example, many flowers grow beautifully in the nodes of the Hartmann grid.

How determine where geopathogenic zones are located in the apartment? The first effective way is to use a dowsing pendulum or frame, otherwise called a “vine”. The second is to use special equipment. The proposed device helps to identify the pattern of fields in a specific area of ​​space.

The basis of the device (Fig. 1) is a charge-sensitive amplifier with an input impedance of about 10 gigaohms (GOhm). The device is built according to a symmetrical design. The indicator is a microammeter with an arrow in the middle of the scale. It shows the direction of the electric field regardless of position.

The device is powered by 2 9 V batteries, the current consumption is approximately 0.1 mA. Third battery(9 V, current about 5 μA) is installed in the potential balancing circuit of the gates of transistors VT1 and VT2.

The signal goes to a symmetrical antenna and then to the gates of field-effect transistors VT1 and VT2. A potential difference appears across resistors R16 and R17. An equalizing current flows through the PA2 device, the arrow deviates from the zero position and indicates the direction of the field in space. Rotating the device 180° changes the polarity of the signalsignal in the antenna and causes the needle to deflect through zero in the opposite direction, i.e. the arrow again indicates the actual direction of the field in space.

Transistor VT3 stabilizes the total operating current of the amplifier.Using a variable resistor R6 (smoothly) and, if necessary, dividers R2...R5 or R7...R10, a zero potential difference between the gates VT1 and VT2 and symmetry of the amplifier arms are ensured, i.e. zero readings of the PA2 device.

Field-effect transistors VT1, VT2 - KP303S with a cut-off voltage of about 1 V and a gate leakage current of 0.1 nA (the amount of needle deflection depends on it). To protect against static electricity, solderingfield-effect transistors are produced only in a ready-made circuit. The terminals of the transistors must be short-circuited with wire jumpers. After soldering the transistors, the jumpers are removed.

When making the antenna (Fig. 2), two 1.5 liter plastic bottles (cylindrical, without “constriction”) are taken as a basis. It is better to take transparent, unpainted mineral water bottles. In bottles, starting from the bottom and not reaching the neck 60 mm, holes are made with a diameter of 5 mm with minimal but intact jumpers between them. The holes are burned with a soldering iron tip (every other one to give the jumper time to cool and not melt it when burning the second hole). The tip must be inserted vertically and quickly removed. Around the hole a roller of extruded plastic is formed, which makes it easier to maintain the integrity of the jumpers and strengthens the mesh.The design of the device is shown in Fig. 3.

Instead of high-resistance resistors R1 and R11 (about 10 GOhm), you can use 02.7x12 mm ferrite cores from the inductors of mid-wave radio receivers. The rod is released from the plastic threaded plug by heating the core near the plug with a soldering iron. Along the edges and in the middle of the core, 7 turns of tinned copper wire d = 0.2 mm are tightly wound. The ends of the wires are twisted tightly, and the resulting bandage is impregnated with solder and rosin. As the solder cools, it contracts, hardens, and forms tight contact with the rod. The leads are soldered to the bandages, and the rod is inserted into a 04...5x15 mm PVC tube. A 03 mm hole is made in the tube for the middle lead, which can be soldered afterwards through the hole. The tube is filled with molten paraffin for moisture resistance. Now the extreme ends of the wires are soldered together. The resistance between them and the middle pin is just about 10 GOhm.

PA2 - dial indicator with a symmetrical scale and zero in the middle (R = 1000 Ohm, total deviation current - 0.05 mA). If there is no ready-made head, you can rebuild the indicator of the Ts-20 device. To do this, you need to disassemble its body, remove the magnetic system with an arrow and unsolder the spiral springs. For convenience, it is necessary to rotate the regulator lever and arrow to their extreme positions. Fix the latter on the scale with a soft wedge. Now, when unsoldering, the spiral spring will diverge from the contact, which is what is required.

You need to remove excess solder from the contacts and ends of the spirals, set the regulator lever and arrow to the central position and fix the arrow on the scale with a soft wedge. When the lower spring touches the contact, the latter must be bent. Tinned copper wire d=0.2 mm is applied to the contact so that its end is aligned with the end of the spiral spring, and soldered to the contact. Then the end of the wire is bent until it comes into light contact with the end of the spiral spring and carefully soldered, and the other end of the wire is bitten off. The second spiral spring is modified in the same way. For ease of soldering, you can wind a bare copper wire d=2 mm onto the soldering iron tip, sharpen and tin the end of the wire. If iron filings get into the magnetic gap of the head, carefully clean it with the tip of a steel sewing needle.

The PA1 indicator (M4762-M1) helps to visually set the operating current using resistor R20. Diode VD1 prevents erroneous connection of GB2.

Resistor R18 limits the charging current of capacitor C2 through the microammeter PA1, R19 limits the charging current of capacitor C1.

The power is turned on with switch SB2 closed. Then it is opened and the device is adjusted:

1. Turn on SB2. By adjusting the “trimmer” R20, the operating current is set to about 0.1 mA.

2. Press the SB3 button. By turning the screw on the dial indicator housing with a screwdriver, the “mechanical zero” is set.

3. Press the SB1 button. Resistor R14 produces a balance of operating currents at equal potentials of the transistor gates.

4. Select a suitable location in space and, comparing the readings in the upright and 180° inverted position of the vertical antenna, adjust R6 to achieve zero readings. For ease of setup, it is preferable that the direction of movement of the R6 handle and the arrow coincide (otherwise, the outer terminals on R6 need to be re-soldered).

5. If adjustment is not provided, then turn off SB2 and solder the output of one of the resistors (R1 or R11) to other taps R3...R5 or R8...R10. After final adjustment, the R6 engine should be approximately in the middle.

To identify grid elements, the adjusted device is held in space so that the antenna is vertical. Remember the position of the arrow. Then the device is smoothly moved in any direction, maintaining the vertical position of the antenna. A decrease in the arrow readings to zero and an increase again, but in reverse polarity, indicates that the antenna has crossed the grid. The position of the antenna relative to surrounding landmarks is fixed and the device begins to move along the strip. By tilting the antenna across the strip, new zeros are found between the positive and negative readings of the instrument arrow to the right and left of the strip. At the same time, the direction of the strip is clarified. If the strip corresponds to the north-south or west-east line, then it refers to the E. Hartmann grid, if at an angle, then to the M. Curry grid.

When moving along the strip, the arrow readings on the left and right of the strip may decrease to zero and then increase again, but in reverse polarity. This corresponds to the transition of the strip through the intersection node with the transverse strip. They remember the location of the node and continue moving further. The repeated change of polarities to the left and right of the stripe corresponds to the transition through the second intersection node with the second transverse stripe. Then from the nodes you need to walk with the device along the transverse stripes to the next nodes on them, and finally, between the nodes there will be another strip parallel to the original strip. If all the stripes on the “inner side” have the same polarity, then these are the boundaries of the polar cell of one of the grids.

So, each cell with a vertical constant electric field upward is separated from neighboring cells with the same field downward by stripes, more precisely, vertical planes, which prevent the opposing fields of the cells from mutually neutralizing and are the boundaries of the change in the direction of the fields. The fields of the two grids are superimposed and create the resulting local sum or difference fields.

V. BORZENKOV

Information sources

1. Dudolkin Yu., Gushcha I. Killer apartments. - M., 2007.

3. http://www.ojas.ru

4. http://verytruth.ru