The present invention relates to a device for performing analyses, searches and experiments on organic and inorganic physical entities using their electromagnetic field.

This device allows studying and treating, in hertz-type microwaves, all the matter exclusively through the electromagnetic (e.m.) field that the matter has in nature (own confined wave) . This device uses a principle called "Radionics", which is the study of radiations for ionising the space, in addition to consequent phenomena and derived applications: the Radionics is a natural radio-technique in hertz-type microwaves, which uses wave-lengths from 1 cm to 0.3 mm., for a band of frequencies included between 30 and 3.333 Gigahertz. The core of the inventive device is its particular oscillating circuit, namely the LCR/SHF radio- resonator, which generates the radionic field, namely the e.m. field with frequencies on the order of 30 to 3.333 Gigahertz, corresponding to wave-lengths shorter than 1 cm. The device of the invention derives from the new principle according to which "the whole matter, organic and inorganic one, is characterised by an electromagnetic personality and, therefore, by a wave, with length λ and frequency f, confined in the matter itself".

Nowadays, there are no other devices or instruments that, in the same way, use physics (magnetic resonance in hertz-type microwaves) , instrumentalities and methodologies like those of the radionics to study and treat the matter, both organic and inorganic.

With suitable instruments, it is possible to detect the above radionic frequency, in addition to apply a suitable frequency to perform re-balancing operations, or to induce suitable energy variations. Therefore, starting from the above new principle, it will be possible to study, in a new, essential and interior way, the organic and inorganic matter, through its proper electromagnetic expression, in addition to intervene on the matter using a particular (radionic) e.m. field, exploiting the phenomenon of magnetic resonance in hertz-type microwaves, and with very low costs.

The inventive device has the following characteristics:

- absolutely "natural" activation and operation (the oscillating circuits are supplied by spherical antennas which pick-up hertz-type cosmic radiations, giving rise to the natural radionic field that allows the use of the device at no costs) ; direct interaction (scientific study, research, experiments and applications) with the electromagnetic part of the matter;

- chassis/container made of wood;

- panel (on the radionic field, CR) made of aluminium; all circuits made of continuous, uninterrupted silver wire, with routes with minimum length and very accurate welded connections;

- all parts made of brass and bare and/or insulated bushes subjected to a process with bath into 18-carat gold;

- oscillometer circuit made of silver bathed in 18- carat gold;

- variable capacitors of the two oscillating circuits made of silver.

The above and other objects and advantages of the invention, as will appear from the following description, are obtained with a device as described in claim 1. Preferred embodiments and non-trivial variations of the present invention are the subject matter of the dependent claims .

The present invention will be better described by some preferred embodiments thereof, provided as a non-limiting example, with reference to the enclosed drawings, in which: Figure 1 is a schematic view of a preferred embodiment of the device of the present invention, seen on one side; and

- Figure 2 is a schematic view similar to Figure 1 but seen on an opposite side.

With reference to the Figures, a preferred, but not limiting, embodiment of the device of the present invention is shown; the device is preferably composed of a wooden chassis with sizes of 34 x 25 x 4 cm, in which a rectangular cell (1) is obtained, covered with a moving panel preferably made of aluminium, which is the seat of the e.m. field (Radionic Field CR) , inside which, on its bottom and along the whole perimeter, a silver wire (2) runs, this wire preferably having a 0 = 16/10.

Such wire, whose free end is terminated by a bare bush (bl) preferably made of brass, is derived by the first oscillating circuit on the top, composed of a fixed antenna with a spherical head (3) , preferably made of brass and with D = 6 mm on a vertical stem connected to the silver wire with 0 = 8/10, forming on one side the solenoid (coil) (4) with two turns with D = 3mm, and on the other side the fixed capacitor (5) with an air gap of d = 4.7mm.

The North end (6) of the solenoid and the East end (7) of the fixed capacitor are connected to the variable capacitor (8) (preferably with 10 pF) on whose shaft the handle (9) is keyed-in, having a tapered needle (10) preferably made of brass. The handle (9) makes the needle (10) slide on the semicircular panel (11) of the inventive radionic scale in a clockwise direction, preferably from value 0.000 to value 14.000.

The device further comprises the second oscillating circuit on the bottom, identical to the above-described top first oscillating circuit, and therefore comprising a fixed antenna (12) with a spherical head with D = 6mm preferably made of brass, on a vertical stem connected to the silver wire with 0 = 8/10 forming on one side the solenoid (coil) (13) with two turns with D = 3 mm, and on the other side the fixed capacitor (14) with an air gap with d = 4.7mm; the East end (15) of the solenoid and the East end (16) of the fixed capacitor are connected to the variable capacitor (17) preferably with 10 pF, on whose shaft the handle (18) is keyed-in, with a tapered needle (19) preferably made of brass. The handle (18) makes the needle (19) slide on the semicircular panel (20) of the inventive radionic scale in a clockwise direction, preferably from value 0.000 to value 14.000.

The device further comprises a frequency-meter, composed of a pole (21) , centred on the inventive radionic scale (22) developed on 360°, preferably made of brass with rounded head, D = 10mm, on a stem (23) , also preferably made of brass, 0 = 3mm and length 16 mm; such stem is centred on the circuit composed of a winding (24) with two turns preferably made of insulated silver with a diameter of 0 = 6/10, whose terminals are respectively connected to the second oscillating circuit, next to the East end (15) of the above solenoid, and to the bare brass compass (b2) .

Immediately below the above winding, and quite near it, a second winding (25) is developed, composed of 1.5 turns preferably made of insulated silver wire, 0 = 6/10, with free terminal, carrying a very small silver sphere, and with the other terminal connected to an insulated bush (b3) arranged on the left flank of the wooden chassis, which is the seat of the exploring bit PE, composed of a copper core (26) , D = 3mm (with tapered bit, protected by a small wooden insulating tube (27) and with the other end welded to a copper braid ending with a peg, which allows inserting the PE into the compass (b3) ) ; along the above path, the circuit forms an open ring (28) , which allows the connection to the phase indicator, composed of a central pole (29) preferably made of brass and with a rounded head, D = 10mm on a stem made of brass with a diameter of 0 = 3mm and length 16 mm; a semicircular quantifying panel (30) ± 90 is centred on the above pole. Next to the above fixed antenna with spherical head (12) preferably made of brass, on the end of the below vertical stem, the insulated bush (b4) is connected and, going on rightwards, the insulated bush (b5) in cui a zenith-type oscillometer is connected, composed of a three- turn solenoid (31) preferably made of silver wire, 0 = 6/10, D = 3mm, 1 = 12mm in a cylindrical container (32) , preferably made of plexiglas or bakelite, closed on the bottom by a bit-shaped body (33) , preferably made of brass, closed on the upper part by a cap (34) , always preferably made of brass, through which the solenoid end, shaped as a small ring, passes, and in which a silver chain (35) with fine meshes, lmax = 18 cm, is fastened, connected, at the other end, to a brass ring (36) D = 20 mm, in turn connected to the copper wire inserted, by means of a pin, into the compass (b5) .

In the lower left position, in an almost centred position with respect to the rectangular cell (1) , there is a subtractor STR/C (37) , composed of a cylindrical tube (37) , preferably made of brass, D = 24 mm, 1 = 50 mm, containing a mixture of sodium chloride NaCl and lithium carbonate LiCθ3.

Two wooden plugs perfectly closed the above tube, within which a small sphere (38) , preferably made of brass, floats, D = 6 mm, screwed on the end of a small bar, D = 3 mm, 1 = 25 mm, preferably made of brass, this latter one connected, by means of a silver wire with 0 = 8/10, to an insulated bush (b6) (on the left) . The cylinder surface is connected, always by means of a silver wire with 0 = 8/10, to another insulated bush (b7) (on the right) . Inside these two compasses, pins are inserted of the Decelerating- Accelerating Selector (SDA) Cupel, composed of a copper cupel (39) (D = 18mm, h = 6 mm, s = 1 mm) , screwed on a cylindrical ring (40) , preferably made of brass, with Dint = 32 mm, h = 10 mm, s = 1 mm, this latter one carried by a cylindrical pipe (41) , preferably made of plexiglas Dext = 32 mm, h = 25 mm, s = 2 mm. The copper cupel (39) and the brass cylindrical ring (40) are connected (in diametrically opposite points) to two small braids made of insulated copper, 0 = 5/10, which end, at their other two ends, with two pins that must be inserted in the compasses (b4) and (b7) for the accelerating action or in the compasses (b4) and (b6) for the decelerating action. A declination compass (42) , inserted in the wooden chassis in an almost barycentrical position, completes the device of the invention.

The device further comprises a 360° measuring scale, which is preferably composed of a graph that is developed clockwise on an arc of 360°, containing: 7 concentric circumferences, the most internal of which has a radius of R=2 cm; inside its range, at the ends of the two orthogonal diameters parallel to the sides of the central circumference CRC, the symbols of the four cardinal points are included (on the top North N, on the bottom, in front, South S, on the left West W, on the right East E) ; the second circumference has a radius R=2.4 cm and between this and the first circumference there are, in a clockwise direction and starting from the top next to the N of North, 14 angular values in degrees (0, 20, 40, 60, 90, 110, 130, 150, 180, 190, 240, 270, 290, 330); the third circumference has a radius of R=3.1 cm, is open for 3 mm next to 40° East, and its opening has its ends pointed out by two black circles; the fourth and the fifth circumferences have respectively a radius of R=3.3 cm and R=3.6 cm; the sixth circumference has a radius of R=4 cm and is similar to the third, being open for 3 mm, next to 290° West, and the opening has its ends pointed out by two black circles; between the sixth and the fifth circumference there are, in a clockwise direction and starting from 40° East, the numbers that point out fourteen radionic fields, 0 to 13, with the following extensions in degrees and related colours: field 0 (40°-60°), blue (dark 40°-50°; medium 50°-55°; light 55°-60°); field 1 (60°-110°), green (dark bottle 60°-80°; medium 80°-90°; light 90°-100°; very light 100°-110°); field 2 (110° -130°), yellow (canary 110°-120°; medium gold 120°-130°); field 3 (130°- 150°), orange (light 130°-140°; medium strong 140°-150°); field 4 (150°-180°), red (light 150°-160°; medium 160°-170°; dark 170°-180°); field 5 black infrared (in white) (180°-190°); field 6 (190°-240°), black; field 7 (240°-290°), grey (dark 240°-260°; medium 260°-280°; light/pearl 280°-290°); field 8 (290°-330°), white; field 9 (330°- 335°), white; field 10 (335°-345°), white; field 11 (345°-350° ),white; field 12 (350°-20°), violet (very light 350°-360°; medium 0°-10°; dark 10°-20°); field 13 (20°-40°), light blue (dark 20°-30°; light 30°-40°); all colours of the 14 fields are included in the internal area to the first circumference with radius R=2 cm; the seventh circumference has a radius R=4.5 cm); 14 continuous radial sections, that point out 14 sectors, 9 of which are coloured and 5 of which are white; in the band between the fourth and the fifth circumference there are black dashes, with distance variable from field to field, that represent the subdivision of every single field: fields 0, 2, 3, 4: three dashes; fields 1, 6, 7, 8, 12: nine dashes; fields 5, 9, 10, 11 : one dash, where the central dashes of very single field are developed between the third and the fifth circumference, as well as all dashes described above, that are included also starting from the first circumference inside the area delimited by the same circumference .

Finally, the device further comprises a 180° measuring scale, which is preferably composed of a graph that is developed clockwise on a continuous arc of 180°, containing: 6 concentric circumferences, the most internal of which has a radius of R=2 cm, the second R=4.5 cm, the third R=5 cm, the fourth R=5.2 cm, the fifth R=5.8 cm, and the sixth R=5.9 cm; 15 radial sections, the first and last of them being aligned on a same unique diameter, included between the first and the sixth circumference, and adapted to designate 14 fields, numbered from 0 to 13 between the second and the third circumference, of which 9 fields are coloured and 5 fields are white; 14 radionic fields, numbered from 0 to 13, having the following extensions in degrees and related colours: field 0 (0°-10°), blue (dark 0°-5°; medium 5°- 7°30'; light 7°30'-10°); field 1 (10°-35°), green (bottle dark 10°-20°; medium 20°-25°; light 25°-30°; very light 30°- 35°); field 2 (35°-45°), yellow (canary 35°-40°; medium gold 40°-45°); field 3 (45°-55°), orange (light 45°-50°; medium strong 50°-55°); field 4 (55°-70°), red (light 55°-60°; medium 60°-65°; dark 65°-70°); field 5 black infrared (in white) 70°-75°; field 6 (75°-100°) black; field 7 (100°- 125°), grey (dark 100°-110°; medium 110°-120°; light/pearl 120°-125°); field 8 (125°-145°), white; field 9 (145°- 147°30'), white; field 10 (147 °30' -152°30' ) , white; field ll(152°30'-155°) , white; field 12 (155°-170°), violet (very light 155°-160°; medium 160°-165°; dark 165°-170°); field 13 (170°-180°), light blue (dark 170°-175°; light 175°-180°); all colours of the 14 fields are between the first and the fifth circumference; between the fourth and the fifth circumference there are black dashes which show the real subdivision of every single field: fields 0, 1, 2, 3, 4, 6, 7, 8, 12, 13 : nine dashes; fields 5 and 10: three dashes; fields 9 and 11, one dash; the central dashes of every single field are developed between the third and the fifth circumference; between the third and the fourth circumference, there are three dashes at the same distance, including the above central dashes, for fields 0 to 8, for fields 10 , 12 and 13; instead for fields 9 and 11 there is a single dash, the central one.

The operation of the device of the invention will now be described. The device does not use any traditional source (electric current sockets, piles, etc.) for its operation. Its activation is completely and absolutely "natural": its oscillating circuits are supplied by the spherical antennas (3) and (12) , which pick-up the hertz-type cosmic radiation with a wavelength λ equal to the own wavelength of the oscillating circuits. The natural e.m. field, which is generated in the circuit due to the current circulating herein, gives rise to a ionisation process, which reduced the impedance of the space-air (almost zeroing it) and makes it possible, due to magnetic resonance, to exchange energy between the above space-air and the objects that can be found therein, depending on the (radionic) frequency set in the oscillating circuit.

The first operation is the device setting, namely:

- burnished bit of the compass needle on North, and short side of the device parallel to the North-South direction of the needle; explorating bit PE (26) (27) inserted in its suitable seat (insulated bush (b3) ) ;

- zenith-type oscillometer Z (31) (32) (33) (34) (35) (36) inserted in its suitable seat (insulated bush (b5) ) ;

- handle (9) with brass needle (10) on value fk = 0.000 of the semicircular panel (11) of the inventive radionic scale;

- handle (18) with brass needle (19) on value fk= 0.000 of the semicircular panel (20) of the inventive radionic cale.

The second operation is putting in resonance the object/subject to be studied and/or treated through the e.m. field that it/he/she has in nature (own wave) . For such purpose, it is necessary to set the radionic frequency fk

(already known since it is on tables or to be determined with the same device) to the above radionic scales (handles

(9) and (18)), after having placed the object in the radionic field CR (rectangular cell (1) ) or after that the subject has contacted the bare bush (bl) . Once having ended the two above operations, the radionic exam with hertz-type microwaves can start, for checking the energy balance status, for determining possible unbalances, whose quantification occurs by means of the phase indicator (29) (30) , which also provides theoretical times to be adopted for the possible re-balancing.

By using the zenith-type oscillometer, placed centred on the vertical line of the frequency-meter pole (21) , then, the necessary radionic frequency fk for the re-balancing is computed. Such latter frequency is applied on the radionic field CR (rectangular cell (1) ) by means of the SDA cupel (39) (40) (41) , which takes the useful energy from the second oscillating circuit (12) -...- (20) : for such purpose, the two pins must be inserted into the bushes (b4) and (b7) for the accelerating action or into the bushes (b4) and (b6) for the decelerating action.

Herein below, some examples related to the concrete use of the inventive device are described.

Example 1 : Determining the radionic frequency fk of a substance or body and its use: the machine has been put in a station; an object (or fragments thereof) is placed on the central pole of the frequency-meter (21) (on a specimen if the object is liquid); the zenith-type oscillometer Z (31)- ...-(36) (kept by an operator with his index and thumb in contact between brass ring and small chain) has been placed on the vertical line of the above frequency-meter pole (21) ; the oscillometer will give rise to a diameter oscillation, at one of whose two ends it is possible to read the value of the radionic frequency fk (this will be he one for which the oscillometer, translated thereto, will go on oscillating) . In order to confirm these data, it is enough to set this value fk on the radionic scale (20) with the handle (18) of the second oscillating circuit: data are confirmed by the rotation of the oscillometer on the frequency-meter. The obtained frequency fk allows the following studies and applications on the substance or body, and, if required, the fk can be projected, with the same device (SDA cupel) in order to cooperate, as a complementary form, with the re- phasing (re-balancing) of a subject or animal or plant, always by exclusively acting on their electromagnetic field. Example 2 : Check of the energy balance status, determining the un-phasing fks and re-phasing fkr for any organic or inorganic system: the device has been put in a station, and has been put in resonance with the physical entity to be studied and/or treated through the e.m. field which he/she/it has in nature (own wave) ; the points to be verified has been touched one at a time, with the exploring bit PE, by placing the oscillometer Z on the phase indicator. The perfect energy balance is given by the oscillation of Z on the reference line 0 (zero) ; otherwise, we could have a deficit (-) or an excess (+) . With the oscillometer Z on the pole (21) of the frequency-meter and the exploring bit PE (26) (27) on the aluminium panel of the radionic field CR, having a suitable graph, if it is necessary according to the search to be made, it is possible to: a) determine the un-phasing frequency fks and the re- phasing frequency fkr to be projected (after having confirmed it with a suitable check) with the SDA cupel, if there is an organic entity (man, animal, plant) ; b) study, analyse (define components or other features), treat (to perform necessary corrections or modifications for the foreseen application) with suitable radionic frequencies, if there is an inorganic entity (for example, ground, minerals, various liquids (such as water, etc.), aeriform substances (such as air, etc.).