RU2187346C2 - Method for forming of field similar in its manifestation to biofield of human being and device for its realization - Google Patents

Abstract

FIELD: medical equipment, applicable in therapy, laser therapy inclusive, biology, plant growing and cattle-breeding, as well as for compensation for the negative effect of geophysical and solar activity, fields, of electrophysical equipment: video monitors, radio telephones, etc. SUBSTANCE: the method consists in the fact that a flux of electromagnetic radiation of the optical band is directed in a trajectory, having the shape of a frontal protection of a spatial spiral of an arbitrary contour onto a plane, or at least of one coil of the spatial spiral of an arbitrary contour. The device has a generator of electromagnetic radiation of the optical band and an optical system providing for movement of the flux of electromagnetic radiation of the optical band in a trajectory, having the shape of a frontal projection of a spatial spiral of an arbitrary contour onto a plane, or at least of one coil of the spatial spiral of an arbitrary contour. Besides, the device may include a closed core of crystalline material, for example, silicon, and the optical system may be made in the form of a light conductor wound on a core. In this case the coefficient of conversion of electromagnetic energy to the field energy grows, and the zones of positive and negative effect on the operator are located on different sides of the core plane. EFFECT: forming of a field similar to the biofield of a human-being with zones of positive and negative effect and controlled field strength value. 4 cl, 3 dwg, 1 tbl

Description

 The invention relates to medical equipment and can be used in therapy, including laser, biology, crop production and animal husbandry, as well as to compensate for the negative impact of geophysical and solar activity, fields of electrophysical equipment: video monitors, cordless phones, etc.

 Recently, methods of the so-called "alternative" medicine with the participation of persons with extrasensory abilities have become widespread. In this methodology, the healer’s biofield is used, which, by methods known to it, generates a field, regulates its characteristics and affects the patient. Such methods are individual, not amenable to control and regulation.

Artificial production of fields similar in their manifestations to a human biofield allows one to verify and standardize the methods of their use on the basis of a generally accepted system of physical units, as well as to protect bioobjects from uncontrolled effects that are currently difficult to detect for so-called superweak - about 10 ^-27 W / 1 /, natural and artificial pathogenic fields.

 To a field similar in its manifestations to a human biofield, we include a field with super-weak energy characteristics, such as tension, and which the biolocation operator perceives as a human biofield. We identify the field sign with the quality of perception of it by the dowsing operator according to the criterion "comfort - discomfort". In this case, a positive value of the field is assigned to the state of comfort and vice versa.

 A known method of obtaining a superweak electromagnetic field [Parapsychology and Psychophysics. Moscow, 1 (27) 1999, p. 62] by inducing it with an ultra-weak current arising in a multilayer, complex-shaped chamber that does not have a special power source.

A device is known that implements such a method [PM 7881, IPC ⁶ A 61 N 1/16, prior. 10.16.1998]. It is a type of "Reich orgone battery" and is structurally made in the form of a chamber made of a set of mesh metallic and nonmetallic materials, the internal dimensions of the chamber being a multiple of the background wavelength of the radio emission, and the conclusions of the metal layers are connected.

 This method and device based on it belong to the category of unregulated, which limits the range of their practical use.

There is also known a method of forming a protective energy field [US Pat. RF 2057552, IPC ⁶ A 61 N 1/16, prior. 04/19/1995] by forming a volumetric energy protective field having a spindle-shaped shape and oriented along the local vertical. The field is formed due to the creation in a closed case of a high-frequency arc gas discharge interrupted at a frequency of 10-100 Hz and electrically matched with a resonant LC circuit located from the condition of maximum antinode of the electromagnetic field component on the outer surface of the case.

A device for forming a protective energy field that implements this method [Pat. RF 2057552, IPC ⁶ A 61 N 1/16. prior. 04/19/1995]. The device includes an energy source and a node for forming a volumetric protective energy field in the form of a high-frequency arc gas-discharge device equipped with a resonant LC circuit.

 This method and the device based on it do not allow to form a field with separated zones of positive and negative impact, which significantly limits the possibilities of their use.

 Using statistical biolocation methods, we first showed that the flow of electromagnetic radiation, such as laser radiation, generates a field in the surrounding space that is similar in its manifestations to a human biofield. This field consists of alternating zones of positive and negative impact on the operator. The distance between the zones increases with distance from the flow path from a few centimeters to fractions of a meter, with a simultaneous weakening of tension. These circumstances preclude the effective practical use of such fields.

 If the electromagnetic radiation is directed along a certain trajectory, then there is a separation and reproducible spatial localization of the zones of positive and negative effects of the field on the operator.

 Our group of inventions allows us to obtain fields similar to a human biofield with separated zones of positive and negative effects and a controlled magnitude of tension.

This technical effect is obtained due to the fact that
- in the method, a field similar in its manifestations to a human biofield is formed by directing a stream of electromagnetic radiation of the optical range along a path having the form of a frontal projection of a spatial spiral of an arbitrary contour onto a plane or at least one turn of a spatial spiral of an arbitrary contour;
- in a device for forming a field similar in its manifestations to a human biofield, an optical range electromagnetic radiation generator is selected as an energy source, and the field forming unit is made in the form of an optical system that provides electromagnetic flow of the optical range for studying the optical range along a path having the shape of a frontal projection of a spatial spiral an arbitrary contour to the plane or at least one turn of the spatial spiral of an arbitrary contour.

 Approaches to the implementation of an optical system with this function are known.

 If inside the optical system that provides the electromagnetic energy flow along a given path, you can additionally place a closed core made of crystalline material, for example, silicon, and the optical system is made in the form of a fiber wound around the core, the coefficient of conversion of electromagnetic energy into field energy increases, and the zones positive and negative effects on the operator are located on different sides of the core plane (see paragraphs 3, 4 of the formula).

 In FIG. 1-3 are diagrams illustrating the proposed method and device for its implementation.

 In FIG. Figure 1 shows an embodiment of the trajectory of the electromagnetic energy flow in the form of a spatial spiral, where the energy source 1, fiber 2, h are the spiral pitch, "+" and "-" are the zones of positive and negative effects of the field on the operator, the arrow shows the direction of electromagnetic energy flow .

 In FIG. 2 shows an embodiment of the path of the electromagnetic energy flow in the form of a frontal projection of the spiral onto the plane, where the energy source 1, mirrors 3, 3 ', h is the spiral projection step, "+" and "-" are the zones of positive and negative effects of the field on the operator, the arrow shows the direction of movement of the flow of electromagnetic energy.

 Figure 3 shows the design of the claimed device (see paragraph 3 of the formula), where the energy source 1, fiber 2, core 4, "+" and "-" are the zones of positive and negative effects of the field on the operator, the arrow shows the direction of flow electromagnetic energy.

 A device that implements the proposed method works as follows (see Fig. 2). The electromagnetic radiation flux from the source 1 is directed to the optical system, which includes a sequence of reflective mirrors 3, 3 ', fixed in space so that the flux propagates along the path of the frontal projection of the spiral onto a plane. This optical design is known as a multi-way cell. As a result of the superposition of the field zones obtained from the individual linear sections of the electromagnetic radiation flux, the field between the planes passing through the reflecting surfaces of the mirrors is localized into a zone of the same sign. Operators determine, near the path between the mirrors, a state of increased comfort, which decreases with distance from the path.

 If a spiral of an arbitrary contour, for example, a polygon (see Fig. 1), which is difficult to implement with ordinary mirrors, is selected as the flow path, then a fiber is used as an optical system. In this case, the operators determine the presence of two field localization zones: a comfort zone near the trajectories on the side of the plane passing through the coil of the spiral, in which the operator observes the electromagnetic energy flow clockwise, and the discomfort zone on the side where the operator observes the anti-clockwise flow .

 If the flow of electromagnetic energy is directed into a fiber mounted on a closed core of a crystalline material, for example silicon (see Fig. 3), then the operators determine the presence of two zones of localization of the field of different signs, where the zone of positive influence is located on the side from which the operator observes general clockwise flow of electromagnetic energy. The negative impact zone is located on the opposite side of the plane. Moreover, all operators note a sharp increase in the degree of comfort - discomfort in comparison with the cases described above.

 Examples of specific performance.

 Measurement technique. 10 dowsing operators of different age categories, trained according to a single program, determine the level of intrinsic sensitivity for a specific field, for example, for a geopathic zone, and assign a single conditional value to this level. Each operator evaluates the results obtained in the future in relative units with respect to this number. The results obtained by the operators are averaged. Each operator works without knowing the results obtained by other operators, and without knowing the fact of the presence or absence of the work of a source generating an artificial field.

 Single measurements. The operator measures the field of the flow of electromagnetic energy from a helium-neon laser without an optical system. Its value is + 100 ± 20 relative units at a distance of 5 cm from the flow path, decreases in absolute value, alternating in sign, to zero at a distance of 5 m.In this case, the width of the last zone is 60 cm.The measurement pattern is symmetrical on both sides of the path.

 Example 1. As a radiation source selected helium-neon laser brand LGN - 128, the radiation power of 0.8 mW. The radiation wavelength is 632 nm. As the optical system used plane-parallel mirrors located at a distance of 3 m from each other, as shown in figure 2. The distance from the source is 1.5 m. The radiation is directed to the mirror at an angle of ≈ 88 (Fig. 2). The operator made measurements in the zones between and beyond the planes to which the reflecting surfaces of the mirrors belong (5 measurements in each zone on each side).

 Two even passes of the radiation flux were made in the space between the planes and a positive field was recorded, similar in its manifestations to the human biofield, with a magnitude of 210 ± 30 units, decreasing with distance from the trajectory to the rudder at a distance of 4 m.

 When working on a multi-way cell scheme, the comfort level increases in proportion to the number of even passes. The distance between the mirrors and the pitch of the projection of the spiral, angle of incidence, power, spectral range and polarization of the flow are chosen from the conditions of structural expediency, the availability of equipment and the tasks.

 Example 2. As a source of radiation used LED from the "laser pointer" with red radiation. As an optical system operating according to the scheme of total internal reflection, a glass fiber with a diameter of 0.5 mm and a total length of 3.5 m was used. The fiber was folded in the form of a spatial spiral with a square contour and a step equal to the diameter of the fiber. The side of the square is 40 cm, the number of turns is 2. The operator took measurements in areas located on both sides of the plane passing through the circuit (5 measurements on each side). On the side where the operator observes the clockwise movement of the electromagnetic energy flux, a positive field with a magnitude of 270 ± 30 units is recorded, decreasing with distance from the plane to zero at a distance of 4 m. On the side where the operator observes the general anti-clockwise electromagnetic flux arrows, a negative field with a magnitude of 260 ± 30 units was recorded, decreasing in absolute value with distance from the plane to zero at a distance of 3.5 m. When working with the spatial spiral pattern, the level of comfort rtnosti - discomfort increases proportionally to the number of turns. The spiral loop, coil diameter, pitch, power and spectral range of the flow and polarization of the flow are also selected from the conditions of structural expediency, the availability of equipment and the tasks to be solved.

 Example 3. As a source of radiation used LED from the "laser pointer" with red radiation. A glass fiber with a diameter of 0.2 mm and a total length of 1.0 m was used as an optical system. The fiber was folded in the form of a spatial spiral wound around a closed core of single-crystal silicon. The outer diameter of the core is 120 mm, the diameter of the central hole is 10 mm, the thickness is 0.7 mm, the number of turns is 8. The operator measured in areas located on both sides of the plane passing through the plane of the core (5 measurements on each side). On the side where the operator observes the general movement of the electromagnetic energy flow clockwise, a positive field is recorded, similar in its manifestations to the human biofield, with a magnitude of 620 ± 60 units, decreasing with distance> 7 m from the plane from zero. where the operator observes the general movement of the electromagnetic energy flow counterclockwise, a negative field is recorded with a magnitude of 570 ± 60 units, decreasing in absolute value as it moves away from the plane to zero at a distance of 5 m. Experience es core indicated the presence of 250 units of fields.

 When working on a spatial spiral pattern with a core of crystalline material, the degree of comfort - discomfort increases in proportion to the number of turns. The dimensions and material of the core, the diameter of the fiber and the number of turns, power, spectral range and polarization of the stream are chosen from the conditions of structural expediency.

 Examples of using the claimed technical solutions in designs designed to solve a number of practical problems.

 - Devices based on light-emitting diodes and light guides, curved in the form of two turns of a spiral with a diameter of 10, 30 and 50 cm in size of the cases of a radiotelephone, a computer monitor and a TV, and placed on their surfaces, were made. Own field of the phone, monitor and TV in the direction of the user is always negative. Therefore, in all cases, the direction of movement of the radiation flux in a clockwise direction was chosen so that a positive field is created in the user's location zone. The results are shown in the table.

 Thus, the negative impact on the user of electrophysical equipment is eliminated.

 - Yeast is placed in two Petri dishes. One of them is located in the negative field zone of the helix located on the core of single-crystal silicon. After a day, a clear slowdown in fungal growth was visually observed in this cup compared to the control.

 - An electrode has been introduced into the body of the cactus and a voltage drop between this electrode and the ground of 1.2 mV has been determined. The cactus is placed in the positive zone of the field obtained in the construction of a multi-way cell. After a day, the voltage increased to 1, 35 mV. When exposed to a negative field, the voltage decreased to 1.1 mV after a day.

 Thus, the claimed technical solutions make it possible to obtain fields similar to a human biofield with separated zones of positive and negative effects, and to effectively protect users from pathogenic emissions of common electrophysical equipment. Devices that implement the claimed technical solutions can be made of any size and, if desired, using inexpensive, standard equipment. They are easy to manufacture, easy to operate and show stable results.

 It also seems to us that this invention will help to more meaningfully approach the analysis of the mechanism of the effect of light on the vital processes of biological objects, on this basis to create a new class of diagnostic and physiotherapeutic equipment, as well as more efficiently use, in particular, laser therapy techniques.

Literature
1. Yu.I. Nikolsky. Non-linear modulation, extremely low frequencies or telepathy again. Parapsychology and psychophysics. - M., 1 (27), 1999, pp. 113-120.

Claims (4)

 1. A method of forming a field similar in its manifestations to a human biofield by directing a stream of electromagnetic radiation of the optical range along a path having the shape of a frontal projection of a spatial spiral of an arbitrary contour onto a plane, or at least one turn of a spatial spiral of an arbitrary contour.  2. A device for the formation of a field similar in its manifestations to a human biofield, containing an optical range of electromagnetic radiation and an optical system that ensures the flow of electromagnetic radiation of the optical range along a path in the form of a frontal projection of a spatial spiral of an arbitrary contour onto a plane, or at least one turn of a spatial spiral of an arbitrary contour.  3. The device according to claim 2, characterized in that a closed core of crystalline material is inserted into it, and the optical system is made of a fiber, wound around the core.  4. The device according to p. 3, characterized in that the core is made of silicon.

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