EP0441853A1 - Method and device for the bimensional localization of neutral particles, particularly for low counting ratios. - Google Patents

Method and device for the bimensional localization of neutral particles, particularly for low counting ratios.

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Publication number
EP0441853A1
EP0441853A1 EP89912456A EP89912456A EP0441853A1 EP 0441853 A1 EP0441853 A1 EP 0441853A1 EP 89912456 A EP89912456 A EP 89912456A EP 89912456 A EP89912456 A EP 89912456A EP 0441853 A1 EP0441853 A1 EP 0441853A1
Authority
EP
European Patent Office
Prior art keywords
converter
particles
charges
neutral particles
wires
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Granted
Application number
EP89912456A
Other languages
German (de)
French (fr)
Other versions
EP0441853B1 (en
Inventor
Serge Maitrejean
Mario Ruscev
Irene Dorion
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Schlumberger SA
Original Assignee
Schlumberger SA
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Priority claimed from FR8814187A external-priority patent/FR2638567B1/en
Priority claimed from FR8814186A external-priority patent/FR2638536B1/en
Application filed by Schlumberger SA filed Critical Schlumberger SA
Publication of EP0441853A1 publication Critical patent/EP0441853A1/en
Application granted granted Critical
Publication of EP0441853B1 publication Critical patent/EP0441853B1/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

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Classifications

    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01JELECTRIC DISCHARGE TUBES OR DISCHARGE LAMPS
    • H01J47/00Tubes for determining the presence, intensity, density or energy of radiation or particles
    • H01J47/02Ionisation chambers
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01JELECTRIC DISCHARGE TUBES OR DISCHARGE LAMPS
    • H01J47/00Tubes for determining the presence, intensity, density or energy of radiation or particles
    • H01J47/12Neutron detector tubes, e.g. BF3 tubes
    • H01J47/1205Neutron detector tubes, e.g. BF3 tubes using nuclear reactions of the type (n, alpha) in solid materials, e.g. Boron-10 (n,alpha) Lithium-7, Lithium-6 (n, alpha)Hydrogen-3
    • H01J47/1211Ionisation chambers

Definitions

  • the present invention relates in particular to a device for detecting and locating particles in a stream of neutral particles emitted by a source, comprising:
  • the object of the present invention is, on the contrary, to allow the production of images of higher resolution and to allow, on a secondary basis, the obtaining of a high contrast, even in a priori unfavorable conditions of irradiation of the object to be examined, and more particularly in the event of poor conversion rates and / or in the presence of fluxes of incident particles of low intensity.
  • the device of the invention is essentially characterized in that said conversion elements capable of also ensuring the collection of charges consist of cells distributed in a flat two-dimensional matrix arranged beyond the anode wires with respect to the source .
  • the images obtained by the device of the invention have a higher resolution than that of the images obtained by the prior device described in patent EP 0 000 271, the two-dimensional matrix of which is formed by two parallel planes of elements. linear also parallel to each other, the elements of different planes being however crossed.
  • the converter comprises an insulating plate one face of which carries said cells, this plate comprising, for each cell, a passage putting this cell in electrical contact with a conductor terminating on the other face this plate.
  • the anode wires are placed in at least one plane substantially parallel to that of the converter, and are substantially parallel to each other.
  • the cells comprise a conversion material chosen from the group comprising gadolinium, boron, and lithium, in the case where the particles neutrals used are neutrons and the cells comprise a conversion material chosen from the group comprising iron, and silver in the case where the neutral particles used are X-rays, in particular soft X-rays.
  • the gas contains an extinguishing substance present in a proportion of at least 25 percent and that the ratio of the distance "S" between two neighboring anode wires, at the distance "G” between these wires and the converter, ie at least equal to 1.
  • At least one of the charge collection elements is connected to a reference electrical potential by means of a capacity capable of accumulating the charges collected by this element.
  • the device also comprises a source of voltage suitable for creating an electrical voltage between the cathode and the anode wires at least equal to 2000 volts, and the anode wires have a minimum diameter greater than 20 microns.
  • the invention also relates to a method for detecting and locating particles in a stream of neutral particles emitted by a source, comprising the operations consisting in:
  • the charge amplification operation preferably comprises the application of an electric field of sufficient value to allow the appearance of electronic avalanches of self-regulated size.
  • the method can advantageously comprise another operation, consisting in accumulating for a certain time the collected electrical charges.
  • the conversion of neutral particles into electrical charges is ensured with a conversion rate such that the number of particles detected is less than 10 5 particles per second and per square centimeter of surface of the converter.
  • FIG. 1 is a schematic view showing, in perspective, the implementation of a device according to the invention.
  • FIG. 2 is an exploded schematic view of a device according to the invention.
  • FIG. 3 is a sectional view of a detection device usable in the system of Figure 1, taken along the plane III-III of Figure 2;
  • FIG. 1 shows in 1 a source of neutral particles, for example a source of soft X-rays, but more typically a source of thermal neutrons in the main applications of the invention. At least part of the flow of particles emitted by this source passes through an object to be examined 2 and reaches the device 3 to which the present invention relates more particularly.
  • a source of neutral particles for example a source of soft X-rays, but more typically a source of thermal neutrons in the main applications of the invention.
  • this device firstly comprises an enclosure, intended to contain u gas and formed of a base 4a and a cover 4b made integral with each other in a sealed manner vis-à-vis the atmosphere, the cover 4b being, however, permeable neutral particles emitted by the source 1, for example by neutrons.
  • the gas contained in the enclosure is a gaseous mixture allowing the appearance of a "streamer" operating mode, in other words the appearance of electron avalanches whose size is self-regulated by spontaneous suffocation.
  • this gas comprises an effective quenching substance, consisting of carbonaceous and polyatomic molecules comprising many relaxation modes, such as isobutane or neopentane, in proportion at least percent.
  • this gas can be * a mixture of 50 percent carbon dioxide and 50 percent isobutane, subjected to a pressure of the order of one to five bars.
  • the converter 5 and the planar grid are connected to a reference electrical potential, and are for example brought to potentials close to the potential of the earth prevailing outside the enclosure, both playing the role. cathodes.
  • the wires of the planar network 6 are on the other hand connected to an external source of electrical potential which delivers a positive potential + V with respect to the average potentials of the converter 5 and of the grid 7, for example of the order of 2000 to 7000 volts.
  • the converter 5 comprises an insulating plate 8, better visible in FIG. 3, and a two-dimensional matrix of cells, such as 9a, 9b, 9c, arranged on one face of the plate ⁇ .
  • Each of the cells such as 9a, is intended to supply a signal representing a point of a two-dimensional image of the object 2.
  • Each of the cells therefore operates independently of its neighbors, and the image obtained consists of a matrix of points each of which corresponds to one of these cells.
  • the light intensity associated with a point in the image depends on the quantity of particles received by the corresponding cell, this quantity being itself dependent on the thickness and the nature of the material from which the object is made. solid angle defined by the source on the one hand and by the cell in question on the other. The operation of the device is illustrated in Figure 3.
  • the wavy path Tl represents that of a neutral particle, a neutron for example, which, after having been emitted by the source 1 and passed through the object 2, the cover 4b of the detector, the grid 7 and the plane of wires 6, reaches a cell 9c of the converter 5.
  • cell 9c made of an adequate material, emits in a statistically observable and reproducible way a fast electron whose trajectory is represented in T2.
  • this fast electron causes the ionization of the gas on its course, and the electrons thus produced drift towards the nearest wire, for example 6c of the network 6 under the effect of the electric field resulting from the difference between the potentials of the converter 5 and the wire pla 6.
  • This movement is identified by the arrows such as T3 in FIG. 3.
  • this amplification corresponds to a mode of operation in which avalanches of electrons appear whose size is self-regulated. This phenomenon, which results in a considerable increase in the electric charge, represented by the final number of electrons produced by each fast electron, continues until spontaneous suffocation of the avalanches.
  • the corresponding positive ions representing a number of charges equal to that of the charges of all the electrons created, deviate from the wire 6c from which they are repelled in reason of their charge, and drift towards the nearest cathodes, constituted by the grid 7 on the one hand and by the converter 5 on the other hand.
  • the converter 5 has a layered structure supported by an insulating plate 8, the latter being for example formed by a printed circuit board made of epoxy resin, with a thickness of 3.2 millimeters.
  • This plate is covered with a layer of copper 10, a few microns thick.
  • a layer of conductive adhesive 11 On the copper layer 10 is deposited a layer of conductive adhesive 11, with which the assembly can be covered with a layer of a conversion material 12, for example a sheet of gadolinium, with a thickness of tenth of a micron, previously golden to prevent oxidation.
  • a conversion material 12 for example a sheet of gadolinium, with a thickness of tenth of a micron, previously golden to prevent oxidation.
  • This stack of layers 10, 11, and 12, deposited on at least the largest part of the surface of the plate 8, is then cut, by saw cutter lines such as 13 attacking the upper face of this plate, into elements. electrically isolated from each other, which constitute the cells 9a, 9b, 9c, etc.
  • the insulating plate 8 comprises, for each cell such as 9c, a passage such as 14c putting this cell in electrical contact with a conductor such as 15 terminating on the other face of the plate 8.
  • each wire such as 6c is stretched exactly over a row of cells such as 9c, these advantageously having a rectangular or square shape.
  • the cathode grid 7 can be made of stainless steel wires with a diameter of 50 microns each, intersecting at right angles, at a p of 500 microns, the role of this grid being to allow a symmetrization of the electric field on the wires such as 6c.
  • the plane of wires 6 is produced in the form of a weaving on an insulating frame of golden tungsten wires with a minimum diameter of at least 20 microns, and preferably from 50 to 100 microns each, arranged parallel to each other. others following a pitch S of 2.54 millimeters for example. All of the wires are connected to a source of electrical potential outside the enclosure 3, delivering a voltage of 5000 vol for example.
  • the distance G between the plane of wires 6 and the converter 5 on the one hand and the distance between the plane of wires 6 and the grid 7 on the other hand are preferably equal and on the order of 3 to 5 millimeters.
  • the cells such as 9c for example have the shape of squares of 2 millimeters on a side, produced at the same pace as the wires, 2.54 millimeters in this case.
  • the conversion material 12 used in cells such as 9c advantageously consists of gadolinium in the case where the neutral particles emitted by the source 1 are thermal neutrons, and of iron or silver in the case where these particles are rays X, in particular soft X.
  • the conductors such as 15c are on the one hand connected to the earth potential via respective capacitors such as 16c, on the other hand connected, each at least for a given time interval, to an electronic device 17, of the type known per se, the function of which is to convert the signal present on each of these conductors to a point in a video image and / or to information capable of being stored in an optical, electronic or other memory.
  • the wires such as 6c play the role of means for amplification and collection of negative charges, while the converter and its cells play both the role of conversion means, of cathode, and of means of collection of positive charges.
  • the useful signal for each point of the image of the object, is constituted by the electrical signal present on the conductors such as 15c, the cells such as 9c constitute more precisely the useful elements of the means of charge collection.
  • the invention develops all its advantages when the number of neutral particles detected is less than 10 5 particles per second and per square centimeter of surface area of the converter, and it is of particular interest when the particles detected are thermal neutrons.
  • the charge amplification operation includes the application of an electric field of sufficient value to allow the appearance of electron avalanches of self-regulated size (streamer mode), and it is advantageous , for this purpose, that the ratio of the distance S (FIG. 3) between two neighboring anode wires 6b, 6c, to the distance G between these wires and the cathode 12, is at least equal to l.
  • this mode allows the creation, for each fast electro emitted by the converter, of an extremely high number of charges, typically of the order of 10 7 to 10 9 , so that it is possible, even from a small number of particles received by the converter, or from a small number of particles converted by it, to obtain an image of an irradiated object such as 2 ( Figure 1).
  • This property is also best exploited according to the embodiment of the invention which comprises an accumulation, for a certain time, of the electrical charges * collected, in a capacity such as 16c.
  • this operating mode makes it possible to overcome an intrinsic defect which the solid converters exhibit under certain conditions of use, in particular for the detection of thermal neutrons.
  • the fast electrons from the solid converter have a very high energy dispersion.
  • the number of first ionization charges directly created per unit of distance by a fast electron passing through the gas is a rapidly variable function of the energy of this fast electron, so that the charge collecting elements, the cells such as 9c in this case, risk providing respective signals representative no longer of the number of neutral particles that these elements have received, but of the energy of the fast electrons to which these particles have led by conversion.
  • the "streamer" mode which has the property of amplifying charges in a highly non-linear manner, makes it possible to re-establish this defect by giving rise, for each fast electron, to a number of charges collected which is substantially independent of the number of charges of first ionization directly created by fast electrons.
  • the use of this operating mode thus makes it possible to reduce the fluctuations of the useful signal to a level close to the fish fluctuations of the source.

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  • Physics & Mathematics (AREA)
  • Chemical & Material Sciences (AREA)
  • Engineering & Computer Science (AREA)
  • Chemical Kinetics & Catalysis (AREA)
  • High Energy & Nuclear Physics (AREA)
  • Materials Engineering (AREA)
  • Measurement Of Radiation (AREA)
  • Analysing Materials By The Use Of Radiation (AREA)

Abstract

PCT No. PCT/FR89/00553 Sec. 371 Date Apr. 26, 1991 Sec. 102(e) Date Apr. 26, 1991 PCT Filed Oct. 24, 1989 PCT Pub. No. WO90/04851 PCT Pub. Date May 3, 1990.The invention relates in particular to a detector for two-dimensional analysis of a flux of photons or neutral particles. The detector comprises a solid plane converter (5) constituted by a two-dimensional matrix of cells (such as 9c), an array of charge-multiplying wires (6) using stimulated ionization of a gas, and a cathode grid (7). The cells both convert the photons or neutral particles and collect the charge, and the ionization is preferably stimulated until self-regulating streams of electrons appear (streamer mode). The invention has application to imaging devices.

Description

PROCEDE ET DISPOSITIF DE LOCALISATION BIDIMENSIONNELLE DE PARTICULES NEUTRES, NOTAMMENT POUR FAIBLES TAUX DE COMPTAGE METHOD AND DEVICE FOR TWO-DIMENSIONAL LOCATION OF NEUTRAL PARTICLES, IN PARTICULAR FOR LOW COUNTING RATES
La présente invention concerne notamment un dispositif pour la détection et la localisation de particules dans un flux d particules neutres émises par une source, comprenant:The present invention relates in particular to a device for detecting and locating particles in a stream of neutral particles emitted by a source, comprising:
- un convertisseur solide sensiblement plan, propre, sous l'impact de ces particules neutres, à produire des charges électriques, ce convertisseur comprenant des éléments de conversion électriquement autonomes les uns par rapport aux autres;- A substantially flat solid converter, clean, under the impact of these neutral particles, to produce electric charges, this converter comprising electrically autonomous conversion elements with respect to each other;
- des fils anodiques, destinés à être portés à un potentiel électrique différent de celui du convertisseur pour faire appaitre un champ électrique, et à produire une amplificatio des charges par ionisation d'un gaz environnant, stimulée pa ce champ électrique;- anode wires, intended to be brought to an electrical potential different from that of the converter to bring up an electric field, and to produce an amplification of the charges by ionization of a surrounding gas, stimulated by this electric field;
- des moyens de collectage de charges, comprenant des éléments conducteurs électriquement autonomes les uns par rapport aux autres, dont certains au moins constituent des éléments de conversion; et,- means for collecting charges, comprising electrically autonomous conductive elements with respect to one another, at least some of which constitute conversion elements; and,
- une enceinte perméable aux particules neutres, renfermant le convertisseur, les fils anodiques, les moyens de collectage de charges, et le gaz.- an enclosure permeable to neutral particles, containing the converter, the anode wires, the charge collection means, and the gas.
Un dispositif de ce type est décrit dans la demande de breve européen publiée sous le numéro 0 000 271.A device of this type is described in the European patent application published under the number 0 000 271.
Bien que ce dispositif antérieur permette la réalisation directe d'images bidi ensionnelles, sa conception repose sur la recherche d'une optimisation de l'efficacité dans certaines applications particulières au détriment d'une optimisation de la résolution.Although this prior device allows direct production of bidi ensional images, its design is based on the search for an optimization of the efficiency in certain particular applications to the detriment of an optimization of the resolution.
Le but de la présente invention est au contraire de permettr la réalisation d'images de résolution supérieure et de permettre, à titre secondaire, l'obtention d'un haut contraste, même dans des conditions a priori défavorables d'irradiation de l'objet à examiner, et plus particulièremen en cas de taux de conversion médiocres et/ou en présence de flux de particules incidentes de faible intensité.The object of the present invention is, on the contrary, to allow the production of images of higher resolution and to allow, on a secondary basis, the obtaining of a high contrast, even in a priori unfavorable conditions of irradiation of the object to be examined, and more particularly in the event of poor conversion rates and / or in the presence of fluxes of incident particles of low intensity.
A cette fin, le dispositif de l'invention, est essentiellement caractérisé en ce que lesdits éléments de conversion propres à assurer également le collectage de charges sont constitués de cellules réparties suivant une matrice bidimensionnelle plane disposée au delà des fils anodiques par rapport à la source.To this end, the device of the invention is essentially characterized in that said conversion elements capable of also ensuring the collection of charges consist of cells distributed in a flat two-dimensional matrix arranged beyond the anode wires with respect to the source .
Grâce à cette disposition, les images obtenues par le dispositif de l'invention ont une résolution supérieure à celle des images obtenues par le dispositif antérieur décrit dans le brevet EP 0 000 271, dont la matrice bidimensionnell est formée par deux plans parallèles d'éléments linéaires également parallèles les uns aux autres, les éléments de de plans différents étant cependant croisés.Thanks to this arrangement, the images obtained by the device of the invention have a higher resolution than that of the images obtained by the prior device described in patent EP 0 000 271, the two-dimensional matrix of which is formed by two parallel planes of elements. linear also parallel to each other, the elements of different planes being however crossed.
En effet cette disposition antérieure, en raison de l'espacement des deux plans qui forment ensemble la matrice bidimensionnelle, et de l'erreur de parallaxe qui en résult introduit pour tout rayonnement non perpendiculaire à la matrice des déformations différentes des images partielles récupérées sur les deux plans, dont résulte une altération sensible de la résolution.Indeed, this previous arrangement, due to the spacing of the two planes which together form the two-dimensional matrix, and the resulting parallax error introduced for any radiation not perpendicular to the matrix of the different deformations of the partial images recovered on the two planes, which results in a significant change in resolution.
Selon un mode de réalisation avantageux de l'invention, le convertisseur comprend une plaque isolante dont une face porte lesdites cellules, cette plaque comportant, pour chaq cellule, une traversée mettant cette cellule en contact électrique avec un conducteur aboutissant sur l'autre face cette plaque. Selon une disposition en soit connue, il est préférable pour l'invention que les fils anodiques soient disposés dans au moins un plan sensiblement parallèle à celui du convertisseur, et soient sensiblement parallèles les uns aux autres.According to an advantageous embodiment of the invention, the converter comprises an insulating plate one face of which carries said cells, this plate comprising, for each cell, a passage putting this cell in electrical contact with a conductor terminating on the other face this plate. According to a known arrangement, it is preferable for the invention that the anode wires are placed in at least one plane substantially parallel to that of the converter, and are substantially parallel to each other.
Compte tenu de la disposition adoptée dans l'invention, il est préférable, pour obtenir une bonne efficacité, que les cellules comprennent un matériau de conversion choisi dans le groupe comprenant le gadolinium, le bore, et le lithium, dans le cas où les particules neutres utilisées sont des neutrons et que les cellules comprennent un matériau de conversion choisi dans le groupe comprenant le fer, et l'argent dans le cas où les particules neutres utilisées sont des rayons X, en particulier des X mous.In view of the arrangement adopted in the invention, it is preferable, in order to obtain good efficiency, that the cells comprise a conversion material chosen from the group comprising gadolinium, boron, and lithium, in the case where the particles neutrals used are neutrons and the cells comprise a conversion material chosen from the group comprising iron, and silver in the case where the neutral particles used are X-rays, in particular soft X-rays.
Dans les cas où, quelqu'en soit la cause, le taux de comptage des particules est faible, il est avantageux que le gaz contienne une substance d'extinction présente dans une proportion d'au moins 25 pourcent et que le rapport de la distance "S" entre deux fils anodiques voisins, à la distance "G" entre ces fils et le convertisseur, soit au moins égal à 1.In cases where, whatever the cause, the particle count rate is low, it is advantageous that the gas contains an extinguishing substance present in a proportion of at least 25 percent and that the ratio of the distance "S" between two neighboring anode wires, at the distance "G" between these wires and the converter, ie at least equal to 1.
Ces caractéristiques autorisent le dispositif à fonctionner selon un mode connu de l'homme de l'art sous la dénomination anglo-saxonne de "self-quenching streamer mode", caractérisé par l'apparition d'avalanches électroniques s'empilant jusqu'à une taille critique du nuage de charges, pour laquelle elles s'étouffent.These characteristics allow the device to operate according to a mode known to those skilled in the art under the Anglo-Saxon designation of "self-quenching streamer mode", characterized by the appearance of electronic avalanches stacking up to a critical size of the cloud of charges, for which they suffocate.
Les avantages particuliers, que ce mode de fonctionnement par ailleurs connu développe dans l'application spécifique qu'en fait l'invention, seront mieux compris dans la description détaillée de celle-ci. 51The particular advantages, which this otherwise known operating mode develops in the specific application that the invention makes of it, will be better understood in the detailed description thereof. 51
- 4 -- 4 -
De préférence, l'un au moins des éléments de collectage de charges est relié à un potentiel électrique de référence par l'intermédiaire d'une capacité propre à accumuler les charge collectées par cet élément.Preferably, at least one of the charge collection elements is connected to a reference electrical potential by means of a capacity capable of accumulating the charges collected by this element.
Une telle intégration des charges contribue à compenser les effets négatifs associés aux flux de particules à faible ta de comptage.Such an integration of the charges contributes to compensating for the negative effects associated with the flow of particles with low metering ta.
De préférence, le dispositif comprend aussi une source de tension propre à créer entre la cathode et les fils anodiqu une tension électrique au moins égale à 2000 volts, et les fils anodiques ont un diamètre minimum supérieur à 20 microns.Preferably, the device also comprises a source of voltage suitable for creating an electrical voltage between the cathode and the anode wires at least equal to 2000 volts, and the anode wires have a minimum diameter greater than 20 microns.
L'invention concerne aussi un procédé pour détecter et localiser des particules dans un flux de particules neutres émises par une source, comprenant les opérations consistant à:The invention also relates to a method for detecting and locating particles in a stream of neutral particles emitted by a source, comprising the operations consisting in:
- recevoir ces particules sur un convertisseur solide sensiblement plan, et produire ainsi des charges électrique à partir de ces particules neutres;- receiving these particles on a substantially planar solid converter, and thus producing electric charges from these neutral particles;
- amplifier ces charges par ionisation stimulée d'un gaz environnant; et- amplify these charges by stimulated ionization of a surrounding gas; and
- collecter, sur le convertisseur, en différents emplacemen espacés les uns des autres, les charges présentes dans au moins un plan sensiblement parallèle au convertisseur; ce procédé étant principalement caractérisé en ce que lesdits emplacements constituent une matrice bidimensionnelle plane- Collect, on the converter, in different locations spaced from each other, the charges present in at least one plane substantially parallel to the converter; this process being mainly characterized in that said locations constitute a plane two-dimensional matrix
Dans le cas de faibles taux de comptage, l'opération d'amplification de charges comprend de préférence l'application d'un champ électrique de valeur suffisante po permettre l'apparition d'avalanches électroniques à taille auto-régulée. Le procédé peut avantageusement comprendre une autre opération, consistant à accumuler pendant un certain temps les charges électriques collectées.In the case of low counting rates, the charge amplification operation preferably comprises the application of an electric field of sufficient value to allow the appearance of electronic avalanches of self-regulated size. The method can advantageously comprise another operation, consisting in accumulating for a certain time the collected electrical charges.
De préférence, la conversion des particules neutres en charges électriques est assurée avec un taux de conversion tel que le nombre de particules détectées est inférieur à 105 particules par seconde et par centimètre carré de surface du convertisseur.Preferably, the conversion of neutral particles into electrical charges is ensured with a conversion rate such that the number of particles detected is less than 10 5 particles per second and per square centimeter of surface of the converter.
Ce procédé est particulièrement adapté, pour des raisons q seront détaillées dans la suite de la description, à l'utilisation de neutrons thermiques en tant que particule neutres.This process is particularly suitable, for reasons q which will be detailed in the following description, for the use of thermal neutrons as neutral particles.
D'autres caractéristiques et avantages de l'invention ressortiront clairement de la description qui en est faite ci-après, à titre indicatif et nullement limitatif, en référence aux dessins annexés, parmi lesquels:Other characteristics and advantages of the invention will emerge clearly from the description which is given below, for information and in no way limitative, with reference to the appended drawings, among which:
- la figure 1 est une vue schématique représentant, en perspective, la mise en oeuvre d'un dispositif conforme à 1'invention;- Figure 1 is a schematic view showing, in perspective, the implementation of a device according to the invention;
- la figure 2 est une vue schématique éclatée d'un disposi conforme à l'invention; et- Figure 2 is an exploded schematic view of a device according to the invention; and
- la figure 3 est une vue en coupe d'un dispositif de détection utilisable dans le système de la figure 1, faite suivant le plan III-III de la figure 2;- Figure 3 is a sectional view of a detection device usable in the system of Figure 1, taken along the plane III-III of Figure 2;
La figure 1 représente en 1 une source de particules neutr par exemple une source de rayons X mous, mais plus typiquement une source de neutrons thermiques dans les applications principales de l'invention. Une partie au moins du flux de particules émis par cette source traverse un objet à examiner 2 et parvient au dispositif 3 sur lequel porte plus particulièrement la présente invention.FIG. 1 shows in 1 a source of neutral particles, for example a source of soft X-rays, but more typically a source of thermal neutrons in the main applications of the invention. At least part of the flow of particles emitted by this source passes through an object to be examined 2 and reaches the device 3 to which the present invention relates more particularly.
Comme le montre plus en détail la figure 2, ce dispositif comprend tout d'abord une enceinte, destinée à renfermer u gaz et formée d'une embase 4a et d'un couvercle 4b rendus solidaires l'un de l'autre de façon étanche vis-à-vis de l'atmosphère, le couvercle 4b étant en revanche perméable particules neutres émises par la source 1, aux neutrons pa exemple.As shown in more detail in Figure 2, this device firstly comprises an enclosure, intended to contain u gas and formed of a base 4a and a cover 4b made integral with each other in a sealed manner vis-à-vis the atmosphere, the cover 4b being, however, permeable neutral particles emitted by the source 1, for example by neutrons.
Le gaz contenu dans l'enceinte est un mélange gazeux autorisant l'apparition d'un mode de fonctionnement "streamer", autrement dit l'apparition d'avalanches d'électrons dont la taille est auto-régulée par étouffemen spontané.The gas contained in the enclosure is a gaseous mixture allowing the appearance of a "streamer" operating mode, in other words the appearance of electron avalanches whose size is self-regulated by spontaneous suffocation.
A cette fin, ce gaz comprend une substance d'extinction (quencher) efficace, constituée de molécules carbonées et polyatomiques comportant de nombreux modes de relaxation, que l'isobutane ou le neopentane, en proportion d'au moin pourcent.To this end, this gas comprises an effective quenching substance, consisting of carbonaceous and polyatomic molecules comprising many relaxation modes, such as isobutane or neopentane, in proportion at least percent.
Par exemple, ce gaz peut être *un mélange de 50 pourcent d gaz carbonique et de 50 pourcent d'isobutane, soumis à un pression de l'ordre de un à cinq bars.For example, this gas can be * a mixture of 50 percent carbon dioxide and 50 percent isobutane, subjected to a pressure of the order of one to five bars.
A l'intérieur de l'enceinte, et parallèlement à l'embase sont disposés:Inside the enclosure, and parallel to the base are arranged:
- un convertisseur solide sensiblement plan 5, propre, so l'impact de ces particules neutres, à produire des charge électriques;- A substantially flat solid converter 5, clean, so the impact of these neutral particles, to produce electric charges;
- un réseau plan 6 de fils conducteurs tels que 6a, 6b, disposé parallèlement au convertisseur et à distance de celui-ci; - et, de préférence, une grille plane de fils conducteurs 7, elle-même disposée à distance du réseau 6.- a flat network 6 of conductive wires such as 6a, 6b, arranged parallel to the converter and at a distance therefrom; - And, preferably, a flat grid of conductive wires 7, itself arranged at a distance from the network 6.
Le convertisseur 5 et la grille plane sont reliés à un potentiel électrique de référence, et sont par exemple porté à des potentiels voisins du potentiel de la terre régnant à l'extérieur de l'enceinte, l'un et l'autre jouant le rôle de cathodes.The converter 5 and the planar grid are connected to a reference electrical potential, and are for example brought to potentials close to the potential of the earth prevailing outside the enclosure, both playing the role. cathodes.
Les fils du réseau plan 6 sont en revanche reliés à une source externe de potentiel électrique qui délivre un potentiel positif + V par rapport aux potentiels moyens du convertisseur 5 et de la grille 7, par exemple de l'ordre de 2000 à 7000 volts.The wires of the planar network 6 are on the other hand connected to an external source of electrical potential which delivers a positive potential + V with respect to the average potentials of the converter 5 and of the grid 7, for example of the order of 2000 to 7000 volts.
Le convertisseur 5 comprend une plaque isolante 8, mieux visible sur la figure 3, et une matrice bidimensionnelle de cellules, telles que 9a, 9b, 9c, disposées sur une face de l plaque δ.The converter 5 comprises an insulating plate 8, better visible in FIG. 3, and a two-dimensional matrix of cells, such as 9a, 9b, 9c, arranged on one face of the plate δ.
Chacune des cellules, telles que 9a, est destinée à fournir un signal représentant un point d'une image bidimensionnelle de 1'objet 2.Each of the cells, such as 9a, is intended to supply a signal representing a point of a two-dimensional image of the object 2.
Chacune des cellules fonctionne donc indépendamment de ses voisines, et l'image obtenue est constituée d'une matrice de points dont chacun correspond à l'une de ces cellules.Each of the cells therefore operates independently of its neighbors, and the image obtained consists of a matrix of points each of which corresponds to one of these cells.
L'intensité lumineuse associée à un point de l'image dépend de la quantité de particules reçues par la cellule correspondante, cette quantité étant elle-même dépendante de l'épaisseur et de la nature du matériau dont est fait l'obje dans l'angle solide délimité par la source d'une part et par la cellule en question d'autre part. Le fonctionnement du dispositif est illustré sur la figure 3.The light intensity associated with a point in the image depends on the quantity of particles received by the corresponding cell, this quantity being itself dependent on the thickness and the nature of the material from which the object is made. solid angle defined by the source on the one hand and by the cell in question on the other. The operation of the device is illustrated in Figure 3.
Le trajet ondulé Tl représente celui d'une particule neutre, un neutron par exemple, qui, après avoir été émise par la source 1 et traversé l'objet 2, le couvercle 4b du détecteur, la grille 7 et le plan de fils 6, atteint une cellule 9c du convertisseur 5.The wavy path Tl represents that of a neutral particle, a neutron for example, which, after having been emitted by the source 1 and passed through the object 2, the cover 4b of the detector, the grid 7 and the plane of wires 6, reaches a cell 9c of the converter 5.
Frappée par cette particule neutre, la cellule 9c, constitué d'un matériau adéquat^ émet de façon statistiquement observable et reproductible un électron rapide dont la trajectoire est représentée en T2.Struck by this neutral particle, cell 9c, made of an adequate material, emits in a statistically observable and reproducible way a fast electron whose trajectory is represented in T2.
En traversant l'enceinte, cet électron rapide provoque l'ionisation du gaz sur son parcours, et les électrons ainsi produits dérivent vers le fil le plus proche, par exemple 6c du réseau 6 sous l'effet du champ électrique résultant de la différence entre les potentiels du convertisseur 5 et du pla de fils 6. Ce mouvement est repéré par les flèches telles qu T3 sur la figure 3.While crossing the enclosure, this fast electron causes the ionization of the gas on its course, and the electrons thus produced drift towards the nearest wire, for example 6c of the network 6 under the effect of the electric field resulting from the difference between the potentials of the converter 5 and the wire pla 6. This movement is identified by the arrows such as T3 in FIG. 3.
Parvenus à quelques diamètres du fil 6c, ces électrons sont très violemment accélérés par le champ électrique, dont la valeur augmente considérablement au voisinage immédiat du fil.Having reached a few diameters of the wire 6c, these electrons are very violently accelerated by the electric field, the value of which increases considerably in the immediate vicinity of the wire.
Ils acquièrent alors suffisamment d'énergie pour ioniser le gaz à leur tour, provoquant ainsi une amplification électronique.They then acquire enough energy to ionize the gas in turn, thus causing electronic amplification.
Selon une caractéristique de l'invention, cette amplificatio correspond à un mode de fonctionnement dans lequel apparaissent des avalanches d'électrons dont la taille est auto-régulée. Ce phénomène, dont résulte une augmentation considérable de la charge électrique, représentée par le nombre final d'électrons produit par chaque électron rapide, se poursuit jusqu'à étouffement spontané des avalanches.According to a characteristic of the invention, this amplification corresponds to a mode of operation in which avalanches of electrons appear whose size is self-regulated. This phenomenon, which results in a considerable increase in the electric charge, represented by the final number of electrons produced by each fast electron, continues until spontaneous suffocation of the avalanches.
Les ions positifs correspondants, représentant un nombre de charges égal à celui des charges de l'ensemble des électrons créés, s'écartent du fil 6c dont ils sont repoussés en raiso de leur charge, et dérivent vers les cathodes les plus proches, constituées par la grille 7 d'une part et par le convertisseur 5 d'autre part.The corresponding positive ions, representing a number of charges equal to that of the charges of all the electrons created, deviate from the wire 6c from which they are repelled in reason of their charge, and drift towards the nearest cathodes, constituted by the grid 7 on the one hand and by the converter 5 on the other hand.
Les ions positifs créés du côté de la grille sont recueillis par cette dernière tandis que ceux créés du côté du convertisseur 5 sont recueillis par une cellule de celui-ci, la cellule 9c en l'occurrence. Leur mouvement est repéré sur la figure 3 par les flèches en pointillé T4.The positive ions created on the side of the grid are collected by the latter while those created on the side of the converter 5 are collected by a cell thereof, cell 9c in this case. Their movement is identified in Figure 3 by the dotted arrows T4.
Comme le montre la figure 3, le convertisseur 5 présente une structure en couches supportée par une plaque isolante 8, cette dernière étant par exemple contituée par une carte de circuit imprimé en résine époxy, d'une épaisseur de 3.2 millimètres.As shown in FIG. 3, the converter 5 has a layered structure supported by an insulating plate 8, the latter being for example formed by a printed circuit board made of epoxy resin, with a thickness of 3.2 millimeters.
La surface supérieure de cette plaque est recouverte d'une couche de cuivre 10, de quelques microns d'épaisseur.The upper surface of this plate is covered with a layer of copper 10, a few microns thick.
Sur la couche de cuivre 10 est déposée une couche de colle conductrice 11, grâce à laquelle l'ensemble peut être recouvert d'une couche d'un matériau de conversion 12, par exemple une feuille de gadolinium, d'une épaisseur d'un dixième de micron, préalablement dorée pour en éviter l'oxydation. Cet empilage de couches 10, 11, et 12, déposé sur la plus grande partie au moins de la surface de la plaque 8, est ensuite découpé, par des traits de fraise scie tels que 13 attaquant la face supérieure de cette plaque, en éléments électriquement isolés les uns des autres, qui constituent le cellules 9a, 9b, 9c, etc.On the copper layer 10 is deposited a layer of conductive adhesive 11, with which the assembly can be covered with a layer of a conversion material 12, for example a sheet of gadolinium, with a thickness of tenth of a micron, previously golden to prevent oxidation. This stack of layers 10, 11, and 12, deposited on at least the largest part of the surface of the plate 8, is then cut, by saw cutter lines such as 13 attacking the upper face of this plate, into elements. electrically isolated from each other, which constitute the cells 9a, 9b, 9c, etc.
De plus, la plaque isolante 8 comporte, pour chaque cellule telle que 9c, une traversée telle que 14c mettant cette cellule en contact électrique avec un conducteur tel que 15 aboutissant sur l'autre face de la plaque 8.In addition, the insulating plate 8 comprises, for each cell such as 9c, a passage such as 14c putting this cell in electrical contact with a conductor such as 15 terminating on the other face of the plate 8.
De préférence, chaque fil tel que 6c est tendu exactement au-dessus d'une rangée de cellules telles que 9c, celles-ci ayant avantageusement une forme rectangulaire ou carrée.Preferably, each wire such as 6c is stretched exactly over a row of cells such as 9c, these advantageously having a rectangular or square shape.
A titre d'exemple, la grille cathodique 7 peut être constituée de fils d'acier inoxydable d'un diamètre de 50 microns chacun, s'entrecroisant à angle droit, suivant un p de 500 microns, le rôle de cette grille étant de permettre une symétrisation du champ électrique sur les fils tels que 6c.By way of example, the cathode grid 7 can be made of stainless steel wires with a diameter of 50 microns each, intersecting at right angles, at a p of 500 microns, the role of this grid being to allow a symmetrization of the electric field on the wires such as 6c.
Le plan de fils 6 est réalisé sous la forme d'un tissage su un cadre isolant de fils de tungstène dorés d'un diamètre minimum d'au moins 20 microns, et de préférence de 50 à 100 microns chacun, disposés parallèlement les uns aux autres suivant un pas S de 2.54 millimètres par exemple. L'ensembl des fils est relié à une source de potentiel électrique extérieur à l'enceinte 3, délivrant une tension de 5000 vol par exemple.The plane of wires 6 is produced in the form of a weaving on an insulating frame of golden tungsten wires with a minimum diameter of at least 20 microns, and preferably from 50 to 100 microns each, arranged parallel to each other. others following a pitch S of 2.54 millimeters for example. All of the wires are connected to a source of electrical potential outside the enclosure 3, delivering a voltage of 5000 vol for example.
La distance G entre le plan de fils 6 et le convertisseur 5 d'une part et la distance entre le plan de fils 6 et la grille 7 d'autre part sont de préférence égales et de l'ord de 3 à 5 millimètres. Les cellules telles que 9c ont par exemple la forme de carrés de 2 millimètres de côté, réalisés au même pas que les fils, 2.54 millimètres en l'occurence.The distance G between the plane of wires 6 and the converter 5 on the one hand and the distance between the plane of wires 6 and the grid 7 on the other hand are preferably equal and on the order of 3 to 5 millimeters. The cells such as 9c for example have the shape of squares of 2 millimeters on a side, produced at the same pace as the wires, 2.54 millimeters in this case.
Le matériau de conversion 12 utilisé dans les cellules telles que 9c est avantageusement constitué de gadolinium dans le cas où les particules neutres émises par la source 1 sont des neutrons thermiques, et de fer ou d'argent dans le cas où ces particules sont des rayons X, en particulier des X mous.The conversion material 12 used in cells such as 9c advantageously consists of gadolinium in the case where the neutral particles emitted by the source 1 are thermal neutrons, and of iron or silver in the case where these particles are rays X, in particular soft X.
Les conducteurs tels que 15c sont d'une part reliés au potentiel de terre par l'intermédiaire de capacités respectives telles que 16c, d'autre part reliés, chacun au moins pendant un intervalle de temps donné, à un dispositif électronique 17, de type connu en soi, dont la fonction est de convertir le signal présent sur chacun de ces conducteurs en un point d'une image vidéo et/ou en une information susceptible d'être stockée dans une mémoire optique, électronique, ou autre.The conductors such as 15c are on the one hand connected to the earth potential via respective capacitors such as 16c, on the other hand connected, each at least for a given time interval, to an electronic device 17, of the type known per se, the function of which is to convert the signal present on each of these conductors to a point in a video image and / or to information capable of being stored in an optical, electronic or other memory.
Dans les conditions exposées, les fils tels que 6c jouent le rôle de moyens d'amplification et de collectage de charges négatives, tandis que le convertisseur et ses cellules jouent à la fois le rôle de moyens de conversion, de cathode, et de moyens de collectage de charges positives.Under the conditions set out, the wires such as 6c play the role of means for amplification and collection of negative charges, while the converter and its cells play both the role of conversion means, of cathode, and of means of collection of positive charges.
En fait, dans la mesure où le signal utile, pour chaque point de l'image de l'objet, est constitué par le signal électrique présent sur les conducteurs tels que 15c, les cellules telles que 9c constituent plus précisément les éléments utiles des moyens de collectage de charges.In fact, insofar as the useful signal, for each point of the image of the object, is constituted by the electrical signal present on the conductors such as 15c, the cells such as 9c constitute more precisely the useful elements of the means of charge collection.
L'invention développe tous ses avantages lorsque le nombre de particules neutres détectées est inférieur à 105 particules par seconde et par centimètre carré-de surface du convertisseur, et elle revêt un intérêt particulier lorsque les particules détectées sont des neutrons thermiques.The invention develops all its advantages when the number of neutral particles detected is less than 10 5 particles per second and per square centimeter of surface area of the converter, and it is of particular interest when the particles detected are thermal neutrons.
Comme mentionné plus haut, l'opération d'amplification de charges comprend l'application d'un champ électrique de valeur suffisante pour permettre l'apparition d'avalanches d'électrons à taille auto-régulée (streamer mode) , et il est avantageux, à cette fin, que le rapport de la distance S (figure 3) entre deux fils anodiques voisins 6b, 6c, à la distance G entre ces fils et la cathode 12, soit au moins égal à l.As mentioned above, the charge amplification operation includes the application of an electric field of sufficient value to allow the appearance of electron avalanches of self-regulated size (streamer mode), and it is advantageous , for this purpose, that the ratio of the distance S (FIG. 3) between two neighboring anode wires 6b, 6c, to the distance G between these wires and the cathode 12, is at least equal to l.
L'intérêt du mode de fonctionnement "streamer" pour un détecteur appliqué à l'imagerie conformément à l'invention trouve son origine dans les deux raisons suivantes.The interest of the "streamer" operating mode for a detector applied to imagery according to the invention has its origin in the following two reasons.
D'une part, ce mode permet la création, pour chaque électro rapide émis par le convertisseur, d'un nombre de charges extrêmement élevé, typiquement de l'ordre de 107 à 109, de sorte qu'il est possible, même à partir d'un petit nombr de particules reçues par le convertisseur, ou d'un petit nombre de particules converties par lui, d'obtenir une imag d'un objet irradié tel que 2 (figure 1) . Cette propriété es en outre exploitée au mieux selon le mode de réalisation de l'invention qui comprend une accumulation, pendant un certa temps, des charges électriques* collectées, dans une capacit telle que 16c.On the one hand, this mode allows the creation, for each fast electro emitted by the converter, of an extremely high number of charges, typically of the order of 10 7 to 10 9 , so that it is possible, even from a small number of particles received by the converter, or from a small number of particles converted by it, to obtain an image of an irradiated object such as 2 (Figure 1). This property is also best exploited according to the embodiment of the invention which comprises an accumulation, for a certain time, of the electrical charges * collected, in a capacity such as 16c.
D'autre part et surtout, ce mode de fonctionnement permet d pallier un défaut intrinsèque que présentent les convertisseurs solides dans certaines conditions d'utilisation, notamment pour la détection de neutrons thermiques.On the other hand and above all, this operating mode makes it possible to overcome an intrinsic defect which the solid converters exhibit under certain conditions of use, in particular for the detection of thermal neutrons.
En effet, si le nombre d'électrons rapides créés à partir d'un nombre prédéterminé de neutrons incidents est constant statistiquement au moins, en revanche les électrons rapides issus du convertisseur solide présentent une très grande dispersion énergétique.Indeed, if the number of fast electrons created from a predetermined number of incident neutrons is statistically constant at least, on the other hand the fast electrons from the solid converter have a very high energy dispersion.
Or, le nombre de charges de première ionisation directement créées par unité de distance par un électron rapide traversant le gaz est une fonction rapidement variable de l'énergie de cet électron rapide, de sorte que les éléments de collectage de charges, les cellules telles que 9c en l'occurrence, risquent de fournir des signaux respectifs représentatifs non plus du nombre de particules neutres que ces éléments ont reçues, mais de l'énergie des électrons rapides auxquels ces particules ont conduit par conversion.However, the number of first ionization charges directly created per unit of distance by a fast electron passing through the gas is a rapidly variable function of the energy of this fast electron, so that the charge collecting elements, the cells such as 9c in this case, risk providing respective signals representative no longer of the number of neutral particles that these elements have received, but of the energy of the fast electrons to which these particles have led by conversion.
Le mode "streamer", qui a la propriété d'amplifier les charges de façon fortement non linéaire, permet de rétablir ce défaut en donnant naissance, pour chaque électron rapide, à un nombre de charges collectées qui est sensiblement indépendant du nombre de charges de première ionisation directement créées par les électrons rapides. L'utilisation de ce mode de fonctionnement permet ainsi de ramener les fluctuations du signal utile à un niveau proche des fluctuations poissonniennes de la source. The "streamer" mode, which has the property of amplifying charges in a highly non-linear manner, makes it possible to re-establish this defect by giving rise, for each fast electron, to a number of charges collected which is substantially independent of the number of charges of first ionization directly created by fast electrons. The use of this operating mode thus makes it possible to reduce the fluctuations of the useful signal to a level close to the fish fluctuations of the source.

Claims

REVENDICATIONS. CLAIMS.
1. Dispositif pour la détection et la localisation de particules dans un flux de particules neutres émises par une source, comprenant:1. Device for detecting and locating particles in a stream of neutral particles emitted by a source, comprising:
- un convertisseur solide sensiblement plan, propre, sous l'impact de ces particules neutres, à produire des charges électriques, ce convertisseur comprenant des éléments de conversion électriquement autonomes les uns par rapport aux autres;- A substantially flat solid converter, clean, under the impact of these neutral particles, to produce electric charges, this converter comprising electrically autonomous conversion elements with respect to each other;
- des fils anodiques, destinés à être portés à un potentiel électrique différent de celui du convertisseur pour faire appaître un champ électrique, et à produire une amplificatio des charges par ionisation d'un gaz environnant, stimulée pa ce champ électrique;- anode wires, intended to be brought to an electrical potential different from that of the converter to cause an electric field to appear, and to produce an amplification of the charges by ionization of a surrounding gas, stimulated by this electric field;
- des moyens de collectage de charges, comprenant des éléments conducteurs électriquement autonomes les uns par rapport aux autres dont certains au moins constituent des éléments de conversion; et,- charge collection means, comprising electrically autonomous conductive elements with respect to each other, at least some of which constitute conversion elements; and,
- une enceinte perméable aux particules neutres, renfermant le convertisseur, les fils anodiques, les moyens de collectage de charges, et le gaz; caractérisé en ce que lesdits éléments de conversion propres à assurer également le collectage de charges sont constitués de cellules réparties suivant une matrice bidimensionnelle plane disposée au delà des fils anodiques par rapport à la source.- an enclosure permeable to neutral particles, containing the converter, the anode wires, the charge collection means, and the gas; characterized in that said conversion elements capable of also ensuring the collection of charges consist of cells distributed in a flat two-dimensional matrix arranged beyond the anode wires with respect to the source.
2. Dispositif suivant la revendication 1, caractérisé en ce que le convertisseur comprend une plaque isolante dont une face porte lesdites cellules, cette plaque comportant, pour chaque cellule, une traversée mettant cette cellule en contact électrique avec un conducteur aboutissant sur l'aut face de cette plaque. - 15 -2. Device according to claim 1, characterized in that the converter comprises an insulating plate one face of which carries said cells, this plate comprising, for each cell, a passage putting this cell in electrical contact with a conductor terminating on the other face of this plate. - 15 -
3. Dispositif suivant l'une quelconque des revendications précédentes, caractérisé en ce que lesdits fils anodiques sont disposés dans au moins un plan sensiblement parallèle celui du convertisseur, et sont sensiblement parallèles les uns aux autres.3. Device according to any one of the preceding claims, characterized in that said anode wires are arranged in at least one plane substantially parallel to that of the converter, and are substantially parallel to each other.
0505
4. Dispositif suivant l'une quelconque des revendications précédentes, caractérisé en ce que lesdites cellules comprennent un matériau de conversion choisi dans le group comprenant le gadolinium, le bore, et le lithium.4. Device according to any one of the preceding claims, characterized in that said cells comprise a conversion material chosen from the group comprising gadolinium, boron, and lithium.
1010
5.Dispositif suivant l'une quelconque des revendications précédentes, caractérisé en ce que lesdites cellules comprennent un matériau de conversion choisi dans le group comprenant le fer et l'argent.5. Device according to any one of the preceding claims, characterized in that the said cells comprise a conversion material chosen from the group comprising iron and silver.
1515
6. Dispositif suivant l'une quelconque des revendications précédentes, combinée à la revendication 3, caractérisé en que le gaz contient une substance d'extinction présente da une proportion est au moins égale à 25 pourcent, et en ce6. Device according to any one of the preceding claims, combined with claim 3, characterized in that the gas contains an extinguishing substance present in a proportion is at least equal to 25 percent, and in that
20 le rapport de la distance (S) entre deux fils anodiques voisins, à la distance (G) entre ces fils et le convertisseur, est au moins égal à 1.The ratio of the distance (S) between two neighboring anode wires, to the distance (G) between these wires and the converter, is at least equal to 1.
7. Dispositif suivant la revendication 6, caractérisé en c7. Device according to claim 6, characterized in c
25 que l'un au moins desdits éléments de collectage de charge est relié à un potentiel électrique de référence par l'intermédiaire d'une capacité propre à accumuler les char collectées par cet élément.25 that at least one of said charge collecting elements is connected to a reference electrical potential by means of a capacity capable of accumulating the chars collected by this element.
3030
8. Dispositif suivant l'une quelconque des revendications précédentes, caractérisé en ce qu'il comprend une source d tension propre à créer entre la cathode et les fils anodiq une tension électrique au moins égale à 2000 volts.8. Device according to any one of the preceding claims, characterized in that it comprises a source of voltage capable of creating between the cathode and the anodic wires an electric voltage at least equal to 2000 volts.
35 35
9. Dispositif suivant l'une quelconque des revendications précédentes, caractérisé en ce que les fils anodiques ont u diamètre minimum supérieur à 20 microns.9. Device according to any one of the preceding claims, characterized in that the anode wires have a minimum diameter greater than 20 microns.
10. Procédé pour détecter et localiser des particules dans flux de particules neutres émises par une source, comprenan les opérations consistant à:10. Method for detecting and locating particles in a stream of neutral particles emitted by a source, comprising the operations consisting in:
- recevoir ces particules sur un convertisseur solide sensiblement plan, et produire ainsi des charges électrique à partir de ces particules neutres;- receiving these particles on a substantially planar solid converter, and thus producing electric charges from these neutral particles;
- amplifier ces charges par ionisation stimulée d'un gaz environnant; et- amplify these charges by stimulated ionization of a surrounding gas; and
- collecter, sur le convertisseur, en différents emplaceme espacés les uns des autres, les charges présentes dans au moins un plan sensiblement parallèle au convertisseur; caractérisé en ce que lesdits emplacements constituent une matrice bidimensionnelle plane.- Collect, on the converter, in different locations spaced from each other, the charges present in at least one plane substantially parallel to the converter; characterized in that said locations constitute a planar two-dimensional matrix.
11. Procédé suivant la revendication 10, caractérisé en ce que l'opération d'amplification des charges comprend l'application d'un champ électrique de valeur suffisante p permettre l'apparition d'avalanches électroniques à taille auto-régulée.11. Method according to claim 10, characterized in that the charge amplification operation comprises the application of an electric field of sufficient value p to allow the appearance of electronic avalanches of self-regulated size.
12. Procédé suivant la revendication 10 ou 11, caractérisé ce qu'il comprend en outre une opération consistant à accumuler pendant un certain temps les charges électriques collectées.12. Method according to claim 10 or 11, characterized in that it further comprises an operation consisting in accumulating for a certain time the collected electrical charges.
13. Procédé suivant l'une quelconque des revendications 10 12, caractérisé en ce que la conversion des particules en charges électriques est assurée avec un taux de conversion tel que le nombre de particules détectées est inférieur à 105 particules par seconde et par centimètre carré de surface du convertisseur. 13. Method according to any one of claims 10 to 12, characterized in that the conversion of the particles into electrical charges is ensured with a conversion rate such that the number of particles detected is less than 10 5 particles per second and per square centimeter. surface area of the converter.
14. Procédé suivant l'une quelconque des revendications 10 à 13, caractérisé en ce que les particules neutres comprennent essentiellement des neutrons thermiques. 14. Method according to any one of claims 10 to 13, characterized in that the neutral particles essentially comprise thermal neutrons.
EP89912456A 1988-10-28 1989-10-24 Method and device for the bimensional localization of neutral particles, particularly for low counting ratios Expired - Lifetime EP0441853B1 (en)

Applications Claiming Priority (5)

Application Number Priority Date Filing Date Title
FR8814187 1988-10-28
FR8814187A FR2638567B1 (en) 1988-10-28 1988-10-28 METHOD AND DEVICE FOR TWO-DIMENSIONAL LOCATION OF NEUTRAL PARTICLES
FR8814186A FR2638536B1 (en) 1988-10-28 1988-10-28 METHOD AND DEVICE FOR LOCATING NEUTRAL PARTICLES FOR LOW COUNTING RATES
FR8814186 1988-10-28
PCT/FR1989/000553 WO1990004851A1 (en) 1988-10-28 1989-10-24 Method and device for the bidimensional localization of neutral particles, particularly for low counting ratios

Publications (2)

Publication Number Publication Date
EP0441853A1 true EP0441853A1 (en) 1991-08-21
EP0441853B1 EP0441853B1 (en) 1994-10-12

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EP89912456A Expired - Lifetime EP0441853B1 (en) 1988-10-28 1989-10-24 Method and device for the bimensional localization of neutral particles, particularly for low counting ratios

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US (1) US5087821A (en)
EP (1) EP0441853B1 (en)
AT (1) ATE112891T1 (en)
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WO (1) WO1990004851A1 (en)

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US6037597A (en) * 1997-02-18 2000-03-14 Neutech Systems, Inc. Non-destructive detection systems and methods
US7377356B2 (en) * 2004-05-25 2008-05-27 Ford Global Technologies, Llc Driver selectable steering ratios
US8704189B2 (en) * 2009-11-18 2014-04-22 Saint-Gobain Ceramics & Plastics, Inc. System and method for ionizing radiation detection
US8319175B2 (en) 2010-08-31 2012-11-27 Schlumberger Technology Corporation Nano-tips based gas ionization chamber for neutron detection
CN104345333B (en) * 2013-08-07 2017-02-22 清华大学 Array combination device for combining neutron detection tubes and neutron detection equipment

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GB1583571A (en) * 1977-06-24 1981-01-28 Exxon Research Engineering Co Hydrocarbon synthesis from co and h2 with ru ni or rh supported on a titanium oxide
FR2591036A1 (en) * 1985-12-04 1987-06-05 Balteau DEVICE FOR DETECTING AND LOCATING NEUTRAL PARTICLES, AND APPLICATIONS
GB8606086D0 (en) * 1986-03-12 1986-04-16 Marsden P K Cathode/converter

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Also Published As

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EP0441853B1 (en) 1994-10-12
DE68918871D1 (en) 1994-11-17
US5087821A (en) 1992-02-11
ATE112891T1 (en) 1994-10-15
DE68918871T2 (en) 1995-04-27
WO1990004851A1 (en) 1990-05-03

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