WO1997006846A1

WO1997006846A1 - Process for increasing the electromagnetic compatibility of field-generating equipment with biological systems by field attenuation, process for determining and transmitting information on electromagnetic fields, and data carrier used therefor

Info

Publication number: WO1997006846A1
Application number: PCT/DE1996/001513
Authority: WO
Inventors: Hans-Joachim Sniady
Original assignee: Brain Wave Protection International Corp.
Priority date: 1995-08-14
Filing date: 1996-08-14
Publication date: 1997-02-27
Also published as: DE19529967A1; DE19529967C2

Abstract

A process is disclosed for increasing the electromagnetic compatibility of field-generating equipment (computers, mobile telephones) with biological systems. The field irradiated by the equipment is attenuated by interference between field information on natural, right-handed polarised high-frequency fields stored in the equipment and the equipment's own left-handed polarised field. The biocybernetic negative field is thus drastically attenuated. The field-attenuating magnetic information (high frequencies, magnetisation) is first transferred to a digital storage medium, for example by a photographic process, and then stored in a memory of a programmable memory equipment.

Description

Method for increasing the electromagnetic compatibility of field-producing devices with respect to biological systems by field reduction, method for determining and transmitting field information from electromagnetic fields, as well as data carriers used here

Description:

The invention relates to a novel method for increasing the electromagnetic compatibility (EMC) of field-producing devices compared to biological systems by field reduction, a method used here for determining and transmitting field information from electromagnetic fields, and a data carrier which is created using the latter method and in the case of the invention Procedure is applied.

In today's environment there are numerous electrical, magnetic and electromagnetic fields with different ranges, which can have a lasting impact on all biological systems. This artificial radiation background, also known as "electrosmog", has increased dramatically in recent decades. There is also natural electromagnetic radiation, including cosmic radiation and the terrestrial radiation emitted from the earth 's surface, according to Brodeur (cited in "Stress and

Resistance deficiency syndrome due to technical microwaves ", Claus EE Schulte-Uebbing, Herold-Verlag Dr. Wetzel, Munich 1985), however, in some urban regions the constant radiation background, which results from waves in the cm range, is estimated to be 100 to 200 million times as large as The natural background is contributed to by television, radar, radio relay, satellite radio and the sum of all other operated technical field-generating and interference-emitting devices.

Also from the area of building ecology there are already studies on the influence of electromagnetic waves on the bio-cybernetic events in humans, animals and plants. The investigations show that especially waves in the cm-wavelength range, depending on the frequency from approx. 10 - 17 μW / cm ² power, have a longer-term effect on the Humans have. Frequency qualities and coded frequency modes play a role here.

According to Hensch, the verification of these biophysical field influences and the acquisition of the parameters can be carried out by means of Lech's resonant circuits, which are precisely tuned, and the biologically effective polarization can be determined by means of interposed rod magnets according to the Faraday-Girator effect. Since the frequency modes can be below the general noise level, measurements can be made with a biosystem as a downstream receiver. In addition, high-frequency filters made of nosodes or other substances built into the measuring system lead to clear results (University of Applied Sciences Hanover, Department of Architecture, Prof. Eike Georg Hensch, in: "ti", technology information from universities in Lower Saxony

Fields that have a particularly strong influence on bio-cybernetics are known to originate from technical electrical or electronic devices in their more detailed form. The loads on computer workplaces can e.g. B. lead to stress associated with headache, fatigue, fatigue, irritation of the autonomic nervous system to depression. It is known today that long-term exposure to very low radiation doses in the athermal range (e.g. around 500 μW / cm2) can have serious physiological and psychological effects (Schulte-Uebbing, op. Cit., And the literature cited therein).

Today, under pressure from users, an attempt is made to

Reduce stress caused by negative computer radiation. Norms such as the MPR II standard of the TCO (Swedish Central Organization of Employees and Workers) prescribe radiation limit values or limit values for magnetic field strengths, which for example should be observed at a certain distance in front of a monitor. By setting limits however, the causes of the stresses generated by electromagnetic fields have not been eliminated. The shields that are often offered, such as grounded front shields, which are attached in front of the screen, have a limited effect because the shielding - especially for the magnetic fields - is often inadequate.

In addition to the exposure to computers - particularly at computer workplaces where the operators are exposed to continuous exposure for many hours - there are also the exposure to other field-emitting electrical devices; here are u. a. To name radio telephones and mobile telephones, which are enjoying increasing spread. Household appliances such as microwave ovens, television and video also work. All these

Burdens add up and increasingly lead to conscious or subconscious burdens on growing sections of the population.

The load in the vicinity of field-generating electrical

Devices can be detected using different methods. High-frequency measurements, kinesiological tests, biofeedback tests, Kirlian photography and similar processes provide information about the health of the user when the device is in operation. Normally, the body can compensate for such negative influences to a certain extent. Particularly sensitive and highly stressed people are susceptible to the symptoms mentioned above.

There is therefore an urgent need to eliminate or prevent interference radiation or interference fields.

The object of the invention is to provide a method with which it is possible to remove the electromagnetic fields (electrosmog) which are harmful to humans and other biological organisms, and below especially to reduce the magnetic fields that are difficult to reach by shielding and thus the electromagnetic compatibility (EMC) of devices that generate such fields, such as computers, radio telephones, mobile phones and the like. the like. To increase, as well as to provide the technical means for carrying out such a method.

The invention is based on the finding that, with a few exceptions in technical devices, the so-called left-hand circularly polarized magnetic fields predominate in the high-frequency range. These are magnetic fields of technical origin that have a negative influence on the biological magnetic fields of the human organism. While electric fields are relatively easy to shield, the harmful magnetic fields can still be found at a distance of 1 to 4 meters from the device.

The aim and solution idea of the invention is the negative broadband that radiates in the vicinity of the device

To reduce fields in the cm wavelength range by physical means in terms of their strength or their biological effect. To achieve the object, the invention provides a method according to the characterizing features of claim 1, in which the field influencing bio-cybernetic, which emanates from an electrical field-generating device, is reduced by superimposition, interference or modulation with a suitable opposing field or interference field.

The method can in principle be used with all programmable logic systems. Field emitters without storage medium could also be detected by using additional devices which act at the location of the disturbing field. In the case of the method, it is provided that first of all physical characteristics of fields influencing biocybernetics originating from electrical field-generating devices are determined. This can be done in a known manner (as described for example in: Henεch, loc. Cit.; H. Garbe, "TEM lines in EMC measurement technology", EMV "92, Karlεruhe, Feb. 1992; D. Hansen, D. Königεtein, EP 0 246 544 B1) However, since the negative fields of similar devices are always the same, it is often unnecessary to redetermine the field of a single device, and it is often sufficient to assume a broadband magnetic high-frequency field with left-hand circularly polarized quality.

In the next step it is necessary to find the data suitable for the field to be influenced and reduced for a suitable counter or interference field. In doing so, physical data are sought, in particular high frequencies, intensities and polarities, which are used for field reduction in the sense of this invention, i. H. for the

Reduction of the influencing field by superimposition, interference or modulation of the device field influencing biocybernetics with the counter or interference field are suitable.

In principle, this can be done in two ways,

First of all, it is possible to use synthetic means to synthetically produce a magnetic state in which such physical information is contained that, when interacting with the field to be influenced, the latter is at least partially neutralized. Various physical means could be suitable for this. 1. It is preferred that a measuring system (for example parallel wire system, tunable Lech's oscillating circuits, as described in more detail below), the as Transmitter is used, broadband electromagnetic fields are generated, which are in the same frequency range and at the same intensity as the influencing fields to be reduced. In all field-generating devices, broadband magnetic high-frequency fields in the right-hand circularly polarized range are preferably used for the field reduction.

2.Alternatively, natural magnetic fields, in particular those from elements, minerals, plants or certain locations, can also be searched for, with the aid of which the further method can then be carried out. These fields can be strengthened, for example by adding (providing) bar magnets or using the Frequencies of special nosodes.

In the next step, it is provided according to the invention that the data found for the opposite field in the form of physical magnetic information generated by suitable physical means are transferred to data carriers, such as magneto-optical data carriers. It is possible to transmit the information of several fields and to "mix" the fields. It may also be advantageous to separate measured frequencies to the i. a. zuzumiεchen broadband fields.

The magnetic information or field information of a field, which can be stored in memories or on data carriers, comprises the frequencies, amplitudes (intensities), frequency modes and polarities of the field.

The transmission can take place, for example, by using the measuring system, if it is used as a transmitter, to transfer physical field information directly to a data carrier. Alternatively, it has been found that magnetic field information can also be obtained through photography recorded and on disk, e.g. B. Photo CD can be transferred.

The data carrier on which the field information as a whole is transmitted or mapped serves in principle to fix the physical magnetic field information of the opposing or interference field at one location so that it can then be fed to the field-generating device. Any physical data carrier that can perform this function in principle is therefore suitable. It is preferably provided that the data carrier is a magnetic or optical digital data carrier, a floppy disk, a magnetic disk, a magnetic tape, a compact disk or a magnetic or optical chip.

In the last step of the method it is provided according to the invention that the information then stored on the data carrier is stored in at least one memory of the device producing the field influencing the bio-cybernetic, whereby a reduction in the field during operation of this device, thereby harmonizing the device environment and organically relieving it occurs in the immediate vicinity of the device.

Preferably, this memory will be a working memory of the field-generating device or the hard disk of a PC. Depending on the type of data carrier used, however, other locations would be inside or outside of it

Devices within the device field on which the field reduction could take place are conceivable. A special additional device would be conceivable, which receives the data carrier and reduces the field when the issuer is operating.

It is also possible to reduce the field in devices that act as receivers, such as. B. radiotelephones, by sending the magnetic information for the opposite field to this receiver. This option is available for computer networks, video and multimedia networks, video telephones, etc.

Field reduction in the sense of this invention generally means the interaction of the (ia) field information transmitted into the device by storing it with the influencing device-specific field through interference, superimposition, modulation or any other influence which leads to a reduction in the negative field influencing biocybernetics . According to all previous investigations, the technically generated fields to be reduced are left circular polarized. The method according to the invention allows the fields emitted by field-emitting devices to be drastically reduced.

It is essential for the understanding of the invention that the stored field information for the opposite field is not about the information content of data, but that this magnetic information acts directly through its magnetic field.

The solution of the invention also includes the knowledge that the magnetic field information can be transmitted directly to certain carrier media, such as magnetic or optical digital data carriers. The solution according to the invention therefore also includes a method for determining and transmitting or imaging field information from electromagnetic fields, in particular from circularly polarized radio-frequency fields, in which physical information from these fields is taken using an information determination method (measuring method) and transferred (copied) directly to a data carrier ) can be. The information determination method can in turn be a measurement with the measuring system, preferably the parallel wire system. The measuring system can be used to measure the negative field, but also to generate the positive field required for field reduction. The physical information of the field is transferred to the data carrier by introducing the data carrier into the field of action of the measuring system that is sending it. As always, the measuring system can bar magnets, noise filter u. interposed (see Henεch op. cit.).

However, the information determination method can alternatively also be a photographic method, the retransmission consisting in transferring the photo to a photo CD or floppy disk. In this case, the physical magnetic information is stored in the photo.

For the effect it is not necessary that this

Information is analyzed and then resynthesized, the information is transmitted directly here.

The data carrier obtained by this method can also be copied, ie reproduced, using conventional means.

The invention is described in more detail below with the aid of examples.

The selected examples, in particular the examples for natural sources of right circularly polarized fields, are intended solely for a better understanding of the invention and do not limit the invention in general.

example 1

1. Determination of the physical characteristics of the influencing field - field measurements on the computer

The subject of the investigation was approximately 100 systems (tower computers, notebooks, network servers and multi-user systems, as well as individual screens from different manufacturers. The devices were manufactured by SNI, IBM, Texas Instruments, VOBIS, SIEMENS, ESCOM, TOSCHIBA, NOKIA, MC- Computers offered, etc. The operating systems MS / DOS, WINDOWS 3.1, WINDOWS 3.11, WINDOWS95, UNIX in several modifications, OS / 2, and several operating systems from Apple Computer ran.

Several processor types from INTEL, AMD, IBM, NSC and Motorola were examined. Furthermore, individual hardware cards that are offered for computer slots, as well as network accessories such as modems, ISDN and ATM adapters. Cables that are used for cable routing of local networks were also the subject of the investigations.

An essential part of the work for the determination of the characteristic data was based on the analysis of RF fields, which build up the computers. This analysis was carried out using broadband field measurements in the cm or GHz range mentioned. For the following field measurements listed as an example, patented controllable parallel wire systems from R. Schneider were used as antennas. These parallel wire systems used by us use, on the control scale, depending on the system, the units of measurement known from physics "Lambda, 1/2 Lambda and 1/4 Lambda". These values are therefore also listed below. They correspond to the cm wavelength range or the corresponding GHz range.

1st step of computer field measurements: preparation of the test environment

A neutral test environment was initially prepared for carrying out the measurements. This is necessary to prevent parameters from the test environment from influencing the result. This test environment (test laboratory) was used for all measurements. Trouble-free results were achieved in this test environment.

Then the object to be examined (here computer) and the measuring system were placed on previously neutral test stations within the test environment.

In the next step, the entire measuring system was moved several times from a distance of 5 m to the object to be examined and individual field distances were measured as listed below.

Step 2: field distance measurements to analyze the parameters - field distance and intensity measurement

With the measuring system, the distance of the total field, which is set up by the computer, was measured as part of the field distance measurement. This distance measurement has the most different in the examined computers Operating systems and the computer accessories, depending on the computer type, result in a distance of 2 to 4 m (on average 3 m). This distance was found oval around the computer. The field has approximately egg-shaped dimensions. The field strength of the entire field was derived from the size of the field. The size of the field was determined from the distance between the computer and the measuring system, which was measured after the measuring system had reached the field boundary when moving to the object. A 3-stage rating scale was used to determine the field distance: 0.01 - 0.2 m negligible, 0.2 - I m low, 1 - 3 m medium, 3 - 4 m high and over 4 m very high field strength ( Intensity).

Measurement parameters and ranges:

Wavelengths, 100 cm to 1 mm

Measuring range

Frequencies, 0.3 to 300 GHz

Measuring range

Intensity μW / cm ² magnetic polarity left / right circular polarized

Step 3: Determine the field polarities, a) left circular:

Since the entire RF field can be left or right circular polarized or both, the polarity was determined with the aid of bar magnets according to the Faraday-Girator effect in several distance measurements.

The result can be one or two RF fields (left and / or right circularly polarized). These fields can have different dimensions.

The left circular polarized region gave z. B. in a notebook PACOMP, sold by MC-Computer in

Hanover, color white, with DX2 / 66 MHz processor, dual scan Plasma display and an external network module a distance of 2.40 m. A HIGHSCREEN Tower PC from VOBIS, with 16MB memory, AMD DX2 / 66 MHz processor and with a 15 inch screen, type MS1570LE, resulted in a distance of 3.65 m. These two measurements were carried out in the operating state of the devices. The field distances were found again and again in comparable systems from other manufacturers with slight differences.

Determination of the field polarities, b) right circular

A right circularly polarized RF field could not be found in any of the devices examined. The extension of the experiment to an even larger number of devices at CeBit 94 and 95 in Hanover showed that all devices had left-hand circularly polarized fields up to a distance of 2-4 m. In only two cases were right-hand circular components found in addition to the left-hand circular fields, which, however, were restricted to a few frequencies and were of secondary importance compared to the left-hand circular ones.

Step 4: Frequency analysis of the left circularly polarized RF field

The distance measurements were now carried out with different settings on the frequency controller of the parallel wire system, and individual high frequencies of the negative, left-hand circularly polarized RF field were measured (e.g. 6.9 1/4 lambda left-hand circular). Results of all

Measurements were that the analysis of individual frequencies is not so important, but rather that the computers rather generate a broadband left-hand circularly polarized RF field in the cm range. Differences in the systems were found primarily in the field strength. 2. Field reduction by deleting intensive individual frequencies

Using the measuring system as a transmitter, the frequency 6.9 1/4 lambda was first applied in a circularly circular polarized manner with a field strength which led to a distance of 3 m. This caused interference and the left circular frequency 6.9 1/4 lambda was deleted in the computer. In the next step, the measuring system was photographed with a setting of 6.9 1/4 lambda with right circular polarization, the image was digitized and stored on the hard disk of the computer. Repeated distance measurements showed that here too the left circular frequency 6.9 1/4 lambda was canceled by interference. The process can be repeated with further measured individual frequencies.

Investigations have shown that it is not necessarily sensible to delete the individual high frequencies by interference. Good results in the field reduction can be achieved if natural broadband right-hand circularly polarized RF fields are used to interfere with the entire field, as described in Examples 2 to 4.

Example 2

Field reduction through natural broadband right circular RF fields

The method corresponds to example 1. Instead of the individual frequencies, natural broadband fields were used for the field reduction.

Usable broadband right-circularly polarized RF fields have been found, for example, in the vicinity of a cactus Lophophora williamsii (frequencies 6.9; 8.2; 28.75; 29.35, among others) measured in 1/4 lambda), the mother tincture of Viscum album (frequencies to 3.1; 7.8; 9.2 measured in 1/4 lambda). Certain right circularly polarized radio frequencies can also be obtained by photography of individual pure elements (e.g. water, H2O, 12.45 cm) and the

Digitization of photography can be saved.

Example 3

Field reduction by mixing natural broadband fields (HF mixture)

In a method as described in Example 1, an "HF mixture" from different natural HF fields in the right-hand circularly polarized region was selected and stored for field reduction. The mixture was modified so long until an optimal field reduction was achieved. In order to stick to the example of the two computers mentioned above, an RF mixture was put together here, which reduced the left-hand circularly polarized RF field to about 20 cm distance. An operator is no longer in the vicinity of the negative RF field. A positive RF field was generated which was based only on the natural photographed components and not on artificially produced components and was 2.5 m apart. The high-frequency photos described in the working example show that this has a positive effect on computer users with regard to electromagnetic compatibility.

The composition of the HF mixture can be done in two ways: 1. Different objects are photographed at different locations. 2. In the test laboratory, the individual objects, which have the desired RF frequencies, are grouped together and photographed. According to our investigation, it is sufficient if at the time of the photo there are objects with strong RF fields in the immediate vicinity of the photo film. According to our distance measurements, the RF frequencies of these objects are also stored. Other selected plants, minerals or pure elements mentioned in Example 2 are suitable as objects.

Frequency examples / sources: liquid water 12.45 cm

Ammonia 1.26 cm

Formaldehyde 6.21 cm

(further frequencies are known in the literature and are confirmed by radio astronomy)

In order to analyze the effects of the interference on the human bio-cybernetic system and to relieve or relieve energy. U. even determine individual organs, the medically tested

Test method of high frequency photography after H.-Chr. Seidl used. It could be demonstrated by photos that the "HF mixture" used provides an energetic relief for the organism. See the effect example.

Example 4

Field reduction through the modified image of a fern

In the image of a fern, broadband magnetic right-hand circularly polarized frequencies, as described in Example 2, were stored on the negative and on the original data carrier (CD, 3 1/2 "Diεk, plate).

They were found naturally stored in the plant, the soil of the plant and in a terrestrial environment. By means of selective Lech Oscillating circles were used to determine the biologically effective polarization, the intensity and the frequencies; thus the assessment of the biophysical parameters of the biosystem. By arranging and combining different plants, minerals and other natural substances, a broadband natural high-frequency field was generated.

By photographing the image, the physical field information including all RF frequencies that were present in the vicinity of the photo carrier were stored on the photo carrier. The broadband right-circular polarized fields required for the field reduction were additionally applied to the photo carrier by means of multiple exposures. Even after the photo was converted to a photo CD, from there to a floppy disk, and with a copy of the chain onto a magnetic tape or magnetic disk, computer chip or optical memory, the magnetic information and frequencies remained demonstrably preserved.

Measurements with the parallel wire system resulted in a reduction in the system-related RF fields of the test computers, depending on the system, from 2 to 4 m previously to approx. 10 to 20 cm in diameter. The user is after the

Storage and the resulting effective interference, through the positive and harmonizing of the environment no longer in the vicinity of the negative field.

After storage on the hard disk of the computer, the effects of the stored magnetic field information, the associated harmonization and the relief of the biological human system were documented by high-frequency photography (see following example of effect). Based on previous experience, the memory-resident field reduction is stable (currently 4 years). In case of doubt, the saving can easily be renewed.

Example of effect of the invention:

The field reduction carried out with the method according to this invention leads to a reduction in electrosmog and to a significant reduction in stress in persons who are in the vicinity of field-producing devices or work with them. This reduction in stress can be attributed to the fact that the organic bio-cybernetic resonant circuits of the human being are relieved. The burden on the heart, circulation and autonomic nervous system decreases.

To demonstrate this effect, tests were carried out by an independent institute in which high-frequency photos were taken of the fingertips of a person who worked on a computer harmonized according to the invention and once on a non-harmonized computer, or directly in front of the computer in it negative field.

In the case of the non-harmonized computer experiment, the image of the fingertips at the edges was blurred and out of focus - as if it had run out. The frequencies were determined according to one of H.-Chr. Seidl, Unterεchleißheim, developed processes made visible by colors. The stress of individual body parts and organs can be recognized by the specialist trained in natural medicine from the course of the colors and the irregular contours. The overall picture indicates stress.

In contrast, the high-frequency photograph of the fingertips of the person working on the harmonized computer showed clear contours. The individual fingertips were surrounded by clear edges, like small courtyards. The calm and even image of the

Fingertips indicate a significantly less stressed condition.

Claims

Claims:

1. Procedure for increasing the electromagnetic

Compatibility (EMC) of field-generating devices with respect to biological systems, that is to say, that

1) physical characteristics of biocybernetically influencing fields emanating from electrical field-generating devices are determined,

2) physical data, in particular high frequencies, intensities and polarities, for the field reduction by overlaying, interference or modulation of an opposing field with the influencing field are determined or recorded in their entirety,

3) the data found for the opposite field in the form of physical magnetic information generated with suitable physical means, such as magneto-optical data carriers, are transmitted and

4) the magnetic information then stored on the data carrier is stored in at least one memory of the device producing the field influencing the bio-cybernetic, whereby during operation of this device a field reduction, thereby harmonizing the device environment and organic relief in the immediate vicinity of the device occurs.

2. The method according to claim 1, characterized in that the physical characteristics of an influencing high frequency field are determined by means of a measuring system, preferably a parallel wire system.

3. The method according to claim 2, characterized in that a tunable Lecher resonant circuit is formed with the parallel wire system and rod magnets are interposed for determining the biologically effective polarization according to the Faraday-Girator effect.

4. The method according to any one of claims 1 to 3, characterized in that the memory of the device into which the magnetic information stored on the data medium is finally transmitted, a working memory, another temporary memory or preferably a fixed memory, such as a hard disk or a chip is.

5. The method according to claim 4, characterized in that the memory is housed in an additional device.

6. The method according to claim 4, characterized in that the field-generating device is a receiver, for. B. is a radio telephone, and that daε storage of the field-reducing magnetic information is carried out by sending.

7. The method according to any one of claims 1 to 6, characterized in that suitable physical means, eg. B. by a Meßεyεtem as a transmitter, preferably a parallel wire system, broadband electromagnetic (radio frequency) are more likely to be generated, which are in the same frequency range and at the same intensity, as the influencing fields to be reduced and are preferably polarized in a right circular manner.

8. The method according to claim 7, characterized in that with the aid of the measuring system as a transmitter, physical field information is transmitted or mapped directly onto the data carrier.

9. The method according to any one of claims 1 biε 6, characterized in that information is naturally available right circularly polarized fields captured by photography and on the disk, z. B. Photo-CD or other digital memory, transferred, or displayed.

10. The method according to any one of claims 1 to 6, characterized in that the physical field information of natural right circularly polarized fields determined by physical measurement, for example with a parallel wire system, simulated with suitable physical means and transmitted or mapped onto data carriers.

11. Method according to one of claims 1 to 10, characterized in that frequencies are obtained with the aid of nosodes, minerals or pure elements and are stored (mixed) together with the field information for the opposite field.

12. The method according to any one of claims 1 to 11, characterized in that the data carrier to which the physical field information is transmitted or mapped, a magnetic or optical digital data carrier, a floppy disk, a magnetic disk, a magnetic tape, a compact disk or a magnetic or optical chip.

13. A method for determining and transmitting field information from electromagnetic fields, in particular for use in a method according to one of claims 1 to 12, that means that physical information from these fields in their entirety or in the form of individual characteristic data with a

Information determination procedure (measuring procedure) accepted and transferred directly to a data carrier (copied or reproduced).

14. The method according to claim 13, characterized in that the data carrier is a magnetic disk, a magnetic tape, a

Floppy disk, an (optical) CD, ROM, RAM or other magnetic or optical digital memory is.

15. The method according to claim 13 or 14, characterized in that the information determination method is a photographic method and the retransmission consists in a transfer of the photos to photo CD, floppy disk or another digital memory.

16. The method according to claim 13 or 14, characterized in that the information determination method is a measurement with a tunable Meßsyεtem, z. B. is a parallel wire system and the further transmission of the magnetic information to the data carrier takes place with the aid of the measuring system as a transmitter.

17. The method according to claim 16, characterized in that to determine the biologically active polarization, the measuring system bar magnets are interposed according to the Faraday-Girator effect.

18. Data carrier for applying the method according to one of claims 1 to 12 to devices from which biocybernetiεch influencing fields emanate, characterized in that physical information generated with suitable physical means from right circular polarized electromagnetic fields is present on the data carrier, which means with suitable physical field generating means was transferred or mapped directly onto these.

19. Data carrier according to claim 18, characterized in that the data carrier is a magnetic disk, a magnetic tape, a floppy disk, an (optical) CD, a ROM, RAM or other magnetic or optical digital memory.

20. A data carrier according to claim 18 or 19, characterized in that the physical field information is present in a photo and the data carrier is a photo CD or another digital memory.

21. A data carrier according to claim 18 or 19, characterized in that the data carrier contains physical information generated with a tunable measuring system as a transmitter and by introducing the

Magnetic data carrier in the effective range of this measuring system was transferred directly.

22. Data carrier according to one of claims 18 to 21, characterized in that the data carrier is a copy of an original data carrier produced with means customary for the respective data carriers.