CA2030242A1 - Apparatus and method for applying information energy to a substrate - Google Patents

Abstract

ABSTRACT OF THE DISCLOSURE:

An apparatus for performing the use of reciprocal effects respectively interactions with vector potentials, wherein at least one, preferably two oppositely poled re-spectively polarized toroidal solenoids aligned and oriented axially with respect to one another and arranged at a dis-tance from one another, whereby a sphere of influence pen-etrated by the magnetic vector potential is formed.

Description

2~302~2 S P E C I F I C A T I O N

~pplicatio~ d ~se of in_~aLticu~ ~tic Ve~or P~entials for t.'ne TrPat.ment of Mat~e~

The lnvention refers to an apparatus with a defined, in particular ~agnetic vector potential and an arran~ement as well as a method for the treat,ment of material in particularly using specifically a preferably magnetic vector portential.

The formation of an electro-static and/or magnetic vector potential in a space free from a ma~netic field is known and proven as. the "Aharanov-Bohm-Ef~`ect" <e.g. Imry/Webb;
"Spektrum der Wis.senschaft June 1989).

Surprisingly it turned out accordin~ to the invention that the magnetic vector potential can be used for the specific energetic treatment respectively iniluencing of materials, and in parkicular also a -ma~netic vector poten-tial in a space or area free from a magnetic f-ield. The reason, ~or this can be as~umed to be inherent in wave-mechanical and~or Juan-tum-mechanical modes of opera-tion or action respectively in~luence!3, pos31bly with interferences hn ~ppara-kus according to the invention to be applied in practice in a simple ~anner, for the formation of a ma~netic -` 2~3~242 vector potential in an area or space free irom a ma~netic field to the greatest possible extent, includes the use of at least a toroidally wound respectively shaped solenoid, on the two flat sides thereof a differently acting (directed) ma2netic vector potential i5 provided respectively, and according to the invention can ~e detected respectively proven easily.

A particular aspect of the invention is the arrangement of several solenoids respectively windin~s, ali~ned respectively oriented with resepct to one another, provided in the shape of a toroid, also havin~ a specifically different direction of flow of the electric (direct) current in the windings of the solenoid.

Specifically with respect to an arrangement in pairs, i.e. an arrangement of two toroidal solenoids provided opposite to one another at a distance with one of their flat sides re~pectively, in the interm~diate space free from a ma~netic fleld provld*d therebetween a col~bined sphere of influence wlth the magnetic vector potentials associated therewith is formed, which sphere of influence depending upon the dlrection of the electric current can be detected resp.
proven as being active resp. effective in the toroidal solenoids in a dlfferent, l~nner and can be used in accordance wlth the lnvention.

The use of reciprocal effects with the ma~netic ~ector potentlal is ko be considered only as an example of the ln~entlon. The use resp. applic~tion of this reciprocal ~P2ect wlth a vector potential also inçlude, the electro-static variant thereof, as well as the utilization of the vector potentials Lncluded in a ma~netic and~or electro-static field.

2~3~12~2 _ 3 For the use and applicatioll of this sphere of influence accordin~ to the invention a plurality of different materials can be introduced in this sphere of influence - which is variable dependin~ upon the directions of current - and can be influenced resp. oriented ener~etically by information ener~3y, too~ in particular ~y an additional specific alld aimed influence of ener~y. These spheres of influence obviously have a contrastin~ resp. different effect and are applicable resp. detectable as rotatin~ to the right or to the left, whereby also the ~eo~agnetic field may have a particular influence.

Such an additional energetic influence respectively a specifically aimed, for example intc-- ~ ntation can be effected by charging the material placed into the sphere of influence by means of a frequency transmission (e.g. in an electro-magnetic, acoustic or mechanical respectively vibrational manner) in the form of a field e.g. by antenna, modulated laser beam or the like.

The most important feature of the invention are the materials provided respectively programmed accordin~ to the invention with ~ specific and aimed information respectively orientation of effect, the transm ~siQQ o~_the information or or~nisational re,pectiv.31y effective patterns being applicable in an advanta~eous manner in various ~ields, in particular in the field of biolo~y.

Vue to the u~e and application of such e.~. biological or~anisati.onal patterns - said use and application bein~
pos:3ible in a very specific and dosed manner - thera ies of biolo~ical systems are po.,sible that are free from side-2!D3~242 effects and naturally are completely non-toxic, too, to which therapies also belon~ treatments of a prophylactic or antidegenerative type, for instance against destructions of the environment, whereby the natural <biolo~ical) balance is restored.

~hese ad~antages are also relevant for a~ricultural aspects resistant to insecticides respectively herbicides and facilitate in a completely safe and natural manner a novel optimization of products. To this also belong the activation and regeneration of e.g. biologically dead waters and iurthermore the making of newly modified chemical praducts and e,g. also the field of metallur~y.

Dam~sing methods, e.g. incineration plants, can also be improved to be more effective and ecologically harmless, by ch~n~in~ the parameters ~a lower temperature of incineration, if possible).

The specific use of reciprocal effects with the magnetic vector potential (or in an analo~uous manner an electro-stAtic vector potential) according to the invention within the spheres of influence can improve and simplify the prodcution respectively recovery of basic substances <e.g.
th~ production of hy,kogenj ald make it cheaper, too, and inally it can mak~ pos~i hl ~ the reçovery of free ener y from 7 s~ce (cosmos).

A~ carrier substançes, i.e. for receiving information or or~ani~atlon patterns respectively orientation patterns with t,he influence respectively treatment and subse~u~nt specific and aim~d transmission to certain fields -. ' ' ~ ' , .

-- 2~3~2~2 of use or appiicatior. accordin~ to the inven-tion water, alcohol and the like liquids, as well as gases, metals, solid bulk or loose materials, etc. may be used, the additional treatment of which is effected with light or laser beams or other beamed or diffuse eiectro-ma~netiG or corpuscular radiations.

In this corLnection the application and use of the new magnetic or also electro-static vector potential according to the inJention mostly reciprocates with all space fields given.

Finally also the conditionin~ of rooms ~e,~. bedrooms, spring m~tresses, car seats, televlsion seats, etc.) is possible in the biologically positive sense and also e.g. ~ specific laser beam treatment, whereby the laser baam first is passed through a sphere of influence of the vector potential, whereby there is e.g. an influence of inter~erence of the coherence thereof.

In the followlng the invention is described in detail, referrlng to varlous embodlments thereof.

The toroidal colls 1 and 2 schematically shown in Fi~. la as a lon~ikudin~l seçtion and in Fig. l'v as a perspe.,tive view are provlrled wlth oppositely directed or oriented llrections of current (see arrows) of their coil windings, and bet,ween t,ham they form a sphere of influence 4 of their ~a~netic vector potentlal in the space free from a magnetic field, whlch or the mere sake of identity is indicated as the "~iue zone", and accordin~ to statements made, e~ert a dextro~yratlng eff~ct on the materials <e.g. a physiolo~ical saline solution or water/alcoholj put into thi, sphere of influence.

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2~3~242 At the risht and at the left of the flat sides of a single toroidal coil (Fig. lc? with respect to a certain direction of the direct current as char~ed, a sphere of influence rotating to the risht and a sphere of influence rotatin~ to the left is noted, the latter sphere of influence rotatini~ to the left being indicated as "red". This e~fect rotatin~ to the "right" and to the "left" can be made visible easily with a small compass needle, which when switchin~ on the toroidal current - in the space otherwise free from a ma~netic field -experiences a slight deviation to the right respectively to the left <up to 10 to 15 ) from the normal ~eoma~netic orientation thereof.

The toroidal coils 1, 2 are operated with direct current and can be connected in series. In the experlmental arransement their axial distance from one another was 15 to 30 cm.

The spheres of influence "blue" tan active respectively effective energy apparently turnin~ clockwise) and "red" (an active respectively effective energy apparently turnin~ anti-clockwise~ reverse, if and when the dirsction of current is reversed by the coil windings 3.

If in the sphers of influence 4 between the two toroidal coila a cuvette 5 (.Fi~. lb) wit,h an isotonic saline solution i8 inserted and same is examined with ar. UV/VIS-spectrometer after treatmen~, this results in ~Fi~ 3~ stron~ly chan~ed respeotlvely varied absorption propertie:, of the liquid obJiously havins the opposite effect, i.e~ dependins on the ~ot whether it wa:, exposed to the infl~ence of the ma~netic vector~ potentlal in the "red" ~ll) or "blue" <10) ~one.

2 ~ ~

The intermediate line resp. curve c~ of Fi~. 3 was achieved with an untreated test material. Other experimental arrangements can be provided Ctogether, too) at points 11 -15 t~ig. ~.

The toroidal coils 1 and 2 are wound in the same directions, however, they are turned towards one another by 180-, such that the directions of current with a connection in series are oppositely directed, and are oriented axially with rezpect to one another.

If at the lnput of a toroidal coil 1 a positive tension is applied <and the output ls connected in series with the input of the toroidal coil 2 and the toroidal coil 2 is then rotated by 180') this results in a "blue" sphere of ln1uence 4 between the toroidal coils 1 and ~ and with a reversal of polarity lt results in a "red" one.

The dif~erent effect of the two spheres of lnfluence is proven according to Fig. 3 with respect to the spectrometer curvez of an isotonic saline solution treated accordiILgly.

While the m~Lgnetic field is exclusively within the toroidal collz 1, ~, in phrticular if and when the toroidal coils are provid~d with a ferroma~rLetic core stron~ly conductin~ the m~n~tic flux, the 3~neti-~ vector potential conseq~ently exterLd~ ~n the environment thereof which is free from a n~L~net~c field.

Tnb u~e o~ toroidal coils 1~ only one of many solutions conçeiv~Lble ~or the creation of a sphere of influence of a 3~L~netic ~ector potential.

, -, 2~3~42 lhe additional modulation of ener~y by laser or electro-magnetic waves is shown schematically in Fi~ lb with the symbols LS ~laser beamj and AT < hi~h frequency antenna).

With respect to Fi~. 2 still further embodiments of the invention can be expiained.

If at points 11 to 15 or at one or more of these points, materials oriented already in a pro~rammed ~anner are arranged e.g. between the toroidal coils 1, 2, and e.~. in the direction of the arrows L~ a subst~nce to be pro~rammed, e.g. a liquid, a ~as or also an electro-ma~netic wave ~laser, li~ht) ia conducted throu~h the apparatus, the materials arran~ed at points 11, etc., act as agents or tr~nsmitters of informatlon towards theae materials continuously passed throu~h the sphere of influence 4.

In thia connect$on the transmission of information can be effected with or without a direct contact, e.~. without a direct contact by means of a liquid <or a ~as) or also a bulk respectivley loose material of any kind in a pipe.

The poasible plurality of such variations respectively transmitters of informatlon arran~ed in a com~ined manner with one another respectlviey in a maQner relatill,. to ~heir ei~ect, permits th~ realization of the transmission even of comple~, syner~istically advanta~e-optimized orientation re~pecti~ely infor~tion pattern:,.

F1n~lly the electro-static and m~netic vector potentials ~ccordlrlz to t,he invention can be used and appiied. too, e.~.

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2~3Q~

as carriers resp. transmission means or vehicles of a transcendental communication and for the interstellar communication <e~change of energy, too) with parallel worlds as well as for the transmutation, i.e. chan~e of appearance, of matter.

Another embodiment of the invention is shown schematically in Fig. 4.

On a base plate U resp. 25 oi` e.g. wood, in the lon~itudinal dirertion of an axis ~-C at a horizontal distance of e.~. 25 cm from one another a set of ma~nets is arranged changing stripw~se, respectively, wlth respect to the polarity thereof, whereby preferably the north pole (~) of a magnetic element 50 of the one set of magnets 22 ls opposite to the south pole (S~ of a magnetic element of the other set of magnet3 23, respectively. In a preferably horizontal direction 51 the lndividual magnetic elements 50 alternate relative to their polarity arrangement, tha strip arran~ement thereof bein~ oriented vertically with respect to the base plate resp. ba:,e plane U ~25i. Analo~uou, result, are achleved lf the strip-like maglletic elements 50 are arran~ed one above the other in the horizontal direction. For achievin~ other results the same poles can be arran~ed, too, oppos~te to one another, respectively, which are provided in an alternatin~ manner a~ far as their strip, are concerned.
In specii~ic cnse:, the strip J~nets carl be vibrated in parallel with one anothér re,pectively opposite to one another at a low frequency, however, aiso at a hi~her ~re~uen._y ~1 K~z~.

- 2~3~2~2 - lV-Within the space laterally limited by the ~ets of magnets 22 and 23, and preferably in the middle thereof, a cuvette 24 is arran~ed, within which a liquid to be coined resp~ marked with an information, e.g. water or a O.g% aqueou~ saline solution (physiological saline solution3 or also a gaseous substrate is provided. In an alternative arrangement this range of field between the sets of magnets 2~ and 23 can also be flown through by the sub6trate in a continuous manner.

Instead of a liquid or a gaseous substrate in this ran~e of field also a solid or powdery substrate can be arranged.

The coining respectively marking of information onto the substrate within the range of effect is made either with an antenna 29 of a probe So passed through the base plate (at 28) with the connection 27 to the cuvette 24, i.e. in the direction of the axi5 Lx (vertical) extending in parallel with the extension of the magnetlc elements 50, or transversely ln the direction of the axis Lx (horizontal~.

~he information consists in vibrations or combinations of vibrations across the entire range of frequency of more than 0 Hz to the vibrating frequency in the ran~e of the sot ~amma beams, using the frequency or combination of frequencies, which i5 kno~n to be the optimum for the de,ire-- e.~. therapeutical or biological - purpose. As specially effeçtive frequencies the following are investigated already:
16 330 Hz, 16 803 Hz, 17 110 Hz, 18 080 Hz. 17 ~20 Hz, 17 650 Hz, 7~ 90 Hz, 15 065 Hz, 17 290795 Hz, 1 252123 Hz as well as ?720 Hz, 7750 Hz, 133 737 Hz and 73 311 Hz.

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, 2~3~2~2 The use respectively effect <Fig. 4) of magnetic vector potentials by means of per~anent ma~nets is explained in more detail with respect to a further embodiment of the invention which can be applied in a practical and simple manner! as is sho~n schematically in Fig. 5.

Throu~h the axial center of an otherwise closed pipe 32 -closed at the circumference and at the front faces thereof -of an e.g. synthetic material, a passage 33 extends, having an inlet 34 and an outlet 35. Over and around at least part of the circumference 36 respectively around the passa~e 33, according to Fig. 4 magnetically structurized ma~nets 37 are provided in a stripwise arrangement and are arranged radially opposite to one another. These magnets 37 may be provided as flexible resp. bendable magnetic foils having a rel~tively weak magnetic force in a range of only 0.22 Tessla (e.g. having a thlckness of approx. 1,5 mm~, the individual magnetic elements 50 thereof are provided very close together extending in the form of strips in the circumferential dlrectlon ~e.g. 1.5 to 3mm). The portions having the same polarity in such a very close arrangement may alsD be oriented respectively aligned in the axial direction.

~etween the sets of ma~nets 37 and transversely to the directior. of pa,sa~e 33 the probe respectively a cuvette 12 is arrAnged within the meanin~ of Fi~. 4. The closer the individual strips of the magnetic elements 50 are arranged respectively the nearer they are to one another, the shorter and more dlrect extend the magnetic lines between the m~netic poles N/S, i.e. they only extend very closely to the lnner wall o~ the l~gnets 37 respectively the ma~netic foil.
The vector potentials 38 vertical with respect to the -` 2~3~2~2 ma~netic lines in this way extend radially <according to Fi~.

4 and schematically enlarged acc. to Fi~. 8) into cross section 33, towards the opposite magnetic element 50, polarized resp. poled oppositely, respectively, as far as t`ne vector is concerned. From this result axially successive zones 3g, 40 of an opposite ~ector direction, which penetrate the cross section of passage 33 shown schematically in Fig.
9. In this context it is surprislng that even the vector potentials 38 of the magnetically relatively weak magnetic foil 37 intensely and lastingly coin or mark the media flowing through passa~e 33 <free cross section e.g. b~tween 10 to 50 ~m of diameter) with information respectively influence them as far as their "fine structure" respectively "minor ener~y of structure" i~ concerned. In contrast thereto ~1~. 7 ~ho~s the field relations of magnetic poles arran~ed axially at a ~reater d~stance, between which the ma~netic i'i~ld lines res~. lines of flux describing a large arc penetrate deeply into the media and the vector potentials on the one hand are too much diluted and on the other hand extend radially, less concentrated radially.

Instead of e.g. a water jet also a laser beam can be directed through passa~e 33 from inlet 34 towards outlet 35 to an ob~ect 41 <e.~. an acupuncture point of m~n). In this case the laser beam 45 is ~uided ,losely pa:,t the probe re~pecti~ely cuvette 1'2 in the center portion of the passa3e <see ~ left-hand side~, or ~uided resp~ directed throu~h a~ openlng ln tne cuvette. Doin~ this, it receives the i'requency information from the merlia in the cuvette, i.e. it be~ome~ modulated thereby alld transfer3 this information to the obSe-,t.

2~3~2 Arl appalatus op~ratin~ with el~otri,_ f ield~ respectively elestric vector potentials and ma~netic fields respectively electro-ma~netic vector potentials ls illustrated schematically in Fi~. 10 as a longitudinal section and as a perspective schematically transparent view ~partly broken away) in Fi~. 11, resp2ctively.

At'both sides of the radial longitudinal axis Lx there are provided permanent ma3nets 52 and 54, which can be switched on from the outside and are inserted in ,asing 59 at both s~des toward the axial passa~e. As an alternative, differently strong ma~nets, also at an arbitrary axial dl3tance from one another as well as electromagnets 55 with windin~s 56 can be used.

Com-lned therewith also electromagnetic fields of charge 53, e.~, capacitor~ can be ~pplied.

Th~ cuvette 57 can be filled with A liquid respectively e.g.
a tranzparent information media 60, through which a laser beam Lx can be directed to an ob~ect 41 throu~h the inlet 75 in the lon~itudinal directio~ of the center axis, said object then belng under the effect of the laser beam achieved in this way and modulated in a frecuency-coined manner. The çuvett,e or probe m~y also be illed with a solid information m~dla ~0 and m~y project only closely to the laser beam. As a la~er a helium-neon-laser or e.~. a liode laser or other types of la~er can be used havin,~ 0.5 W and a freque-ncy of ~3~.8 nm. Such an lnfluence and effect~ by the las-3r is requlred only for a few se~conds.

2~3~242 In the further modified embodiment according to FiS. 11 additional position~ of introduction 61 and 62 of additional cuvettes as well as additional capacitor plates 63 are provided, which are provided between the ma~nets M1 and M2 -arra~ed also at the front faces - within the casin~ 5~.

With respect to the apparatus schematically shown in Fig. 12 as a plan view, around an intermediate area receivin~ the cuvette 66 between two ma~nets 70 at the end sides, magnets 71 ad.justable as to their an~ular position with respect to the two hori~ontal axes Rxl and Rx2, are provided, respectively magnets 73 adjusted at an angle of a circular path 72.

In the apparatus according to Fig. 12 frequency information depending on an angle of rotation can be coined respectively marked on a substrate at the position of the cuvette 66.

Xoreover also a plurality of magnets 71/?3 can be used, and ~ -these magnets can be applied for the coinin~ respectively marking of information by means of a pronounced and definite rotation.

The use oi7 the ~bove-described coinage re,p. marking of inform~t,ion of magn~tic fiel-ls by mean~ of electric fiel,ls, too, in particular under thq influence of the electromagnetic and/or electro-static vector potentials resulting therefrom, can be applied to practicaily all energetic respectively bioener~etlc fields. Since the electromagnetic or electric ener~y required for this needs to be very low only, with the respective arrangements the vector potential~, havin~
comparatively little energy, enga~e in extensive bioio~ical fields.

,, , - ~031~2~2 For instance an apparatus according to Figs. 5 and ~ can be used for the treatment of water, in particular drinkin~ water <also for the known formation of crystals of calcite instead of arra~onite), for the treatment of sewage respectively effluents, for industrial manufacturing processes and also for tnose in the field of medicine as well as for the treatment of environment <activation of woods and dead waters) and for the room climate <hospitals, etc.). For example spaces 80 accordin~ to Fig. 13 can be subjected completely to the influence of electromagnetic vector fields, between two coils according to Fig. la provided in two side walls opposite to one another or in the floor and the ceiling of a room.

However, it is to be paid attention to the different effects in the blue or red zones as mentioned above. An influence and effect in the red portion of the field ~correspondin~ to the optlcal rotation to the left) means a lively harmonic influence, whlle the blue portion of the field <corresponding to the optical rotation to the right) means a more opposite toxlco-active respectively stimulating influence on biological systems. The use of both these influences in combination is conceivable, too, e.g. by means of methods of the kind of "alternatin~ hot and cold baths" between red and bluf Howfver, ln the inorgan c field, too, the use o~` vector potenkials is ~dvantageous, for example for the generation re3p. making of new alloys respectively structures of materials ar-d for the preparation of supra-conductive ~ub~tances.

Claims (11)

1. The use of reciprocal effects respectively interactions with vector potentials, in particular of the magnetic vector potential preferably in a space free from magnetic fields, for a specific transmission of pre-determined effective energy organisation respectively orientation patterns on substrates.

2. A substrate applying the use according to claim 1, characterized in a contents of respectively a certain specifically adjusted orientation of effective respectively active energy.

3. A method of performing the use according to claim 1 and/or of producing a substrate according to claim 2, characterized in that the substrate is subjected to resp.
exposed to the specific and well-aimed influence of a vector potential, in particular a magnetic vector potential in a space free from a magnetic field.

4. A method according to claim 3, characterized in that the substrate by means of an additional specific influence of energy in the sphere of influence of the vector potential is influenced respectively oriented with a separately supplied effective energy respectively energy of information.

5. An apparatus for performing the method according to claims 3 or 4, characterized in at least one, preferably two oppositely poled respectively polarized toroidal solenoids <1, 2> aligned and oriented axially with respect to one another and arranged at a distance from one another, whereby a sphere of influence (4) penetrated by the magnetic vector potential is formed.

6. An apparatus performing the use according to claim 1 and the method according to claim 3 producing a substrate according to claim 2, characterized in that magnets of alternating arrangement of their N- and/or S-poles are arranged narrowly together (or side by side), whereby a substrate is located on the side and preferably moved alongside of the alternating magnet combination at which the magnetic field lines are bent between the narrowly closely adjacent alternating magnetic poles.

7. An apparatus according to claim 6, in which at least two magnet combinations with closely changing N- and/or S-poles are arranged opposite to each other and having the substrate arranged therbetween.

8. An apparatus according to claim 6 and 7, having arranged different poles N- and/or S opposite to each other.

9. An apparatus according to claims 6, 7 or 8, in which the magnet combinations are magnetic foils having a magnetic pole structure of stripwise changing adjacent poles, whereby the adjacent strips are about 0.5 to 7.0 mm wide, preferably 1.0 to 4 mm.

10. An apparatus according to claims 6,7, 8 or 9, whereby a probe (42) extends into the space (passages 33) in front of the magnet combinations effecting additional introduction of information on the substrate within the vector potential field.

11. An apparatus according to one of the claims 7 to 9, wherein a device (e.g. probe 42) is included to introduce information into the space in front of the magnet combinations for modulating laser beams or electromagnetic waves, directed through the space with the vector potential field.