FR2508189A1 - Electro-optical converter for body imaging by transient EM fields - has latent image of field produced by living or inanimate body recorded on photoelectric sheet sensitive to X=ray, UV or IR radiation - Google Patents

Abstract

The effects of the electromagnetic field which are propagated by the live or inanimate body are recorded and stored in the form of a latent image. This latent image is formed on an electro-optical converting layer. The image is developed by irradiating the electro-optical converting layer with U.V., X-rays, visible or I.R. radiations. The irradiation stage can take place before, during or after the exposure to the electromagnetic field. The developed image is recorded by an image sensor and stored in a memory. This non-destructive method is useful for biological, medical and industrial applications.

Description

 The present invention relates to a method of electro-eptic conversioration in images of the electrical characteristics of living or inanimate bodies by a transient electromagnetic field with the aid of a layer of an electro-optically convergent substance which is impressed in the form of a latent, raised image. a photon irradiation of the ultraviolet domain, X, visible infra-red, irradiation which follows, follows u is synchronous with the exposure in the electromagnetic field.

The method is based on the phenomenon of electrical excitation or of electronic excitations exerted on the same electron-optical convergent substance layer by the action of a transient electromagnetic field and also by photon radiation.
The electron-optical convergent substances which exhibit this double sensitivity are luminophores with phoscent phoscent remanence. Depending on the chronology of the two exposures, irradiation may precede, follow, or coincide with exposure in the electromagnetic field, and these effects are denominated by pre-, post-, or photon-synehro-excitation.

 We know different methods of transposition of electrical characteristics into images used for different physical bodies or living organisms by the effect of electrolamines, this or other side effects of electric current, methods known as electrographic methods.

 Thus, electromagnetic methods are known in the very high-voltage and high-frequency modes, electrostatic electrographic methods, electrographic methods which use liquid crystals, all these methods being the basis of the construction of the various electrical exploration apparatus, for the image reproduction, for the nen-destructive center of materials, etc.

 All these methods use relatively high energies which are harmful or disturb the electrical characteristics in the physiological conditions of living organisms and which are insensitive to the exploration of physical bodies with reduced dimensions and do not succeed in highlighting the interactions with weak electromagnetic fields.

The present method of electro-eptic conversion into images of the electrical characteristics of living bodies inanimate by a transient electromagnetic field according to the invention makes it possible to avoid these drawbacks and is characterized by recording and memorizing in the form of an image. latent of the effects of a transient electromagnetic field propagated by the living or inanimate body being explored, on a layer of an electron-optically convergent substance, an image which is given back by the irradiation of the layer of electron-optical convergent substance with radiation of the ultraviolet domain,
X, visible or infra-reuge.

 The present invention is described in three main variants by way of example with reference to the accompanying drawings 1, 2, 3, which represent the schematic diagrams of the three variants.

FIG. 1 shows a mode of application of the present invention which consists in the preliminary photonic excitation of the layer of electron-optical convergent substance
SC, excited by the photonic source F, after which it is introduced into the transient electromagnetic field exposure device D generated by the source E, inside which the inverted body 0 is traversed by the electromagnetic field CE, the attenuation effects and deformation thereof being projected on the layer of electroconverting optical substance
SC, producing its extinction according to the electrical characteristics of the body investigated 0; the image of the extinction of the electron-optical convergent substance (SC) layer is obtained by an image sensor I placed in contact or distance from the layer.

of convergent substance (SC) and then it is retained by storage x0
In the figure Ne. 2 another embodiment of the present invention is presented by a possibility of secondary photon excitation of a layer of transocentro-optical SC material after it has been exposed in contact with the investigated body 0 in the exposure device D where they are traversed by the electromagnetic field CE, the electrical characteristics being thus desertified in darkness; the revelation of the recording is made by exposure to photonic radiations of the ultraviolet domains, X, visible or infra-red generated by the source F, the images being recorded by the image sensor I, contact or remote, and stored in the meineire M.

 FIG. 5 shows a third mode of recording the image obtained by the exploration of the electrical characteristics of the organism Q in a magnetic field-explorer EC, the attenuations and deformations of which are recorded on a layer of electro-optically convergent substance SC which is subjected synchronously to the action of the photonic radiates of the ultraviolet radiation field, X, visible on infra-red; the recording of this simultaneous double action by being done by the image sensor I in real time or by its storage in the memory M.

 In accordance with the invention, the principle of method application is based on the recording and storage of the latent ina on the layer of electro-optical convergent substance produced by the electromagnetic field CE propagated by the explored organization O.

 The attenuation and the deformation of the initial electromagnetic field uniformly distributed in the device D, activate with different energies determined by its attenuation and deformation by the organism explored 0, on the electrons which are in states of transition, producing the extinction of the electron-optical convergent substance layer S 9 -w by non-luminescent excitation, as in the example of FIG. 1, by transforming the luminescence electrons into conduction electrons by modifying the dynamics of the luminescent transitions, as in the example of Figure No. 2.

 In the example of Figure No. 3, the two mechanisms qi realize the image meet.

The characteristics of the eXploratc electromagnetic field depend on the qualities of the electron-optical convergent substance using transient high, medium and low voltage electromagnetic fields with single or repeated high frequency variations.
The memorization time of the electron-optical convergent substance (SC), which is negligible for the case of the example of FIG. 3, also depends on the qualities of the electro-eptically convergent substance, on the temperature, on the electrical conductivity of the convergent substance layer and also of other physical factors. It can be extended by known methods of fixing the electric charge.

The method carried out in accordance with the invention has the following advantages:
1. The method is highly sensitive in explorations that require micro-energy sources, being a preferential method in the exploration of living organisms;
2. The method allows the analysis of the structural distribution of an electromagnetic field by a non-homogeneous and anisotropic volume-conductor;
3.The method is non-destructive and does not affect the physical and biological characteristics of the body investigated by its application according to the examples in the figures
No. 1 and Ne. 2 and in the case of the example of Figure No. 3, the photon radiation source using X-rays is considerably less than the doses used in radiology.

 4. The method has described biological, medical and industrial applications in apparatus intended for the recording of electrical characteristics or as a possibility of memorizing certain electromagnetic field effects.

Claims (4)

REVENDIACATIONS  1) Method of electron-optical conversion in images of the electrical characteristics of living or inanimate cerps by a transient electromagnetic field, characterized by the recording and storage in the form of a latent image of the effe of a transient electromagnetic field propagated by the living or inanimate body being explored, on a layer of electro-optically convergent substance, which is restored by the irradiation of the layer of electron-optical convergent substance with radiates of the ultraviolet domain, X, visible or infra- reute.  2Y Method of electren.-optical conversion into images of the electrical characteristics of living or inanimate bodies by a transient electromagnetic field according to claim 1, characterized by the prior photonic excitation of the electron-optical convergent substance (SC) layer, excited by the photonic source (F), after which it is introduced into a transient electromagnetic field exposure device (D generated by the source (t), inside which the intest body (O) is traversed by the electromagnetic field ( CE), the effects of attenuation and deformation thereof being projected on the layer of electro-optically convertible substance (SC), producing its extinction in accordance with the selected characteristics of the body investigated (0); the extinction of the layer of electron-optical convergent substance (SC) is obtained by an image sensor (I) placed in contact or at a distance with the layer of converting substance (SC) and then it is retained by memorization (M).  3) Method of electron-optical conversion into images of the electrical characteristics of living or inanimate bodies by a transient electromagnetic field according to claim 1, characterized by the secondary photonic excitation of a couc of electroconvironmentally convertible substance (SC), after it has been exposed in contact with the investigated body (0) in the exposure device (D) where they are traversed by the electromagnetic field (CE), the electrical characteristics being stored in darkness; the revelation of the recording is made by exposure to photon radiations of the ultraviolet, X> visible or infra-red domains, generated by the source (F), 1 images being recorded by the image sensor (I) of contact o remotely, and stored in the memory (M).  4) Method of electro-eptic conversion into images of the electrical characteristics of living or inanimate bodies by a transient electromagnetic field according to claim 1, characterized by the exploration of the electrical characteristics of the organism (0) in an exploratory electromagnetic field ( CE), whose attenuations and deformations are recorded on a layer of electro-optical (SC) cathodic substance which is synchronously subjected to the action of photonic radiation in the field of ultra-violet, X, visible or infra-red radiation; the recordings dip of this double simultaneous action by being done by the image sensor (I) in real time or by its storage in the memory (M).  5) Method of electron-optical conversion into images of the electrical characteristics of living or inanimate bodies by a transient electromagnetic field according to claim 1, characterized by the possibility of a prolonged storage of the image by fixing the electric charge on the electron-optical convective substance layer.