WO2000030283A1

WO2000030283A1 - Gas detector

Info

Publication number: WO2000030283A1
Application number: PCT/RU1999/000417
Authority: WO
Inventors: Viktor Mikhailovich Golovin; Alexandr Vladimirovich Smirnitsky
Original assignee: Viktor Mikhailovich Golovin; Smirnitsky Alexandr Vladimirov
Priority date: 1998-11-13
Filing date: 1999-11-04
Publication date: 2000-05-25
Also published as: WO2000030283A8; RU2148283C1

Abstract

The present invention relates to a gas detector that comprises two flat and parallel conductive layers (1 and 4), a resistive layer (3) as well as a gas interlayer (5) provided between the resistive layer and the second conductive layer. This detector also includes a dielectric layer (2) provided between the first conductive and the resistive layers, wherein said layers contact each other at one point at least of their surfaces. One conductive layer at least consists of separate elements which are electrically isolated from each other. The detector may be of the symmetric type and may further include a second dielectric layer (7) as well as a second resistive layer (8) which are brought into contact with the already existing layers (4 and 5). Separate instruments may be assembled into a packet so that their conductive surfaces, either analogous or different, face each other.

Description

\ νθ 00/30283 ΡСΤ / ΚШ9 / 00417

Gas detector.

DETAILED DESCRIPTION OF THE INVENTION The invention is subject to the scope of x-ray and nuclear processing and may be used to detect radiation.

PREVIOUS LEVEL OF TECHNOLOGY

Izvesτny gazοvye προπορtsiοnalnye deτeκτορy, sοdeρzhaschie ποmeschennye in gazοvuyu sρedu on ^χ οdyaschuyusya ποd deysτviem vysοκοgο naπρyazheniya, eleκτροdy, οdin of κοτορyχ, πρeimuschesτvennο κaτοd, vyποlnen as τela vρascheniya and dρugοy - as τοnκοy niτi (

ПΙΙ, Ν21764090, κl. Η0υ47 / 06, 1992, bull. Ν235; ΡШ, Ν2 2062523, κl.

Η01ϋ47 / 06, 1996, bull .Νg17). They found a wide application in the field of high energy, they are not easy to manufacture and do not have a sufficient quick operation for practical temporary measurements.

Gaseous detectors made in the form of a flat-panel camera are known, for example, described in the ή

Аг_agde ϋοη СοСШСΙег Ε ^χ ρепте ^η τ (ΑиСΕ) аι τ е СΕΡΝ ШС, Ριϊηт.еα 'аτ СΕΡ.Ν, сес. 1995, p. 64. Οn sοdeρzhiτ πlοsκο two-πaρallelnyχ meτalliche- sκiχ eleκτροda, ποsρedsτvοm κeρamiκi or πlasτiκa ρazmeschennyχ on φiκsiροvannοm ρassτοyanii dρug οτ dρuga, πρi eτοm προsτρansτvο between eleκτροdami zaποlnenο gazοvοy sρedοy and ποsτοyannοe naπρya- voltage, πρilοzhennοe therebetween sοzdaeτ naπρyazhennοsτ eleκτρiche- sκοgο ποlya sufficient for avalanche gas, can be minimized by particles of high energy. In the process of avalanche multiplication, free carriers (reduced by particles), moving in electric 2 On the other hand, they wait for additional elec- trons, ensuring gas amplification. However, in the case of a well-functioning device, there is no mechanism for limiting the speed of the avalanche process; Partially, this problem is resolved by supplying voltage through the С-C-Η filter, which ensures a decrease in voltage between the voltage plates and the charge. However, the finite value of the constant power supply limits the load on the detector, and is only negligible.

Izvesτen gazοvy deτeκτορ (scheτchiκ Pesτοva) τaκzhe ποsτροen- ny πο πρintsiπu πlοsκο-πaρallelnοy κameρy (ΤesήηyuaΙ ΡgοροzaΙ Τοg Α Ι_agde ϋοη SοShsΙeg Εχρeπ ^'teηϊ (ΑΙ_ΙSΕ) aτ τήe SΕPΝ Ι_Ν5, ^Ρπ' ητeά aτ SΕPΝ, άes.1995, stρ.58 ) It Β reduction naπρyazhennοsτi eleκτρichesκοgο ποlya in mesτe προχοzhdeniya chasτitsy, neοbχοdimοe for οgρanicheniya προtses- ca lavinnοgο umnοzheniya, on account οsuschesτvlyaeτsya πadeniya naπρyazheniya on ρezisτivnοm (ποluπροvοdyaschem) slοe, ρazmeschennοm between προvο- dyaschim slοem and gazοvοy sρedοy and vyποlnyayuschem in eτοy κοnsτρuκtsii ροl anοda. In this case, the gas amplification of the detector is much higher than in the past, and the supply chain is significantly simplified. Οdna- κο vοzmοzhnοsτ ρeguliροvκi πaρameτροv deτeκτορa οgρanichivaeτsya uzκim πeρechnem isποlzuemyχ maτeρialοv, ποsκοlκu anοd mοzheτ byτ izgοτοvlen τοlκο of sπetsialnοgο tseliκοm ποluπροvοdyaschegο (eleκτροnnοgο τiπa) maτeρiala, κ κοτορym οτnοsyaτsya, naπρimeρ, neκο- τορye types eleκτροτeχnichesκοgο sτeκla.

DISCLOSURE OF INVENTION 3 Ηasτοyaschee izοbρeτenie ρeshaeτ task uπροscheniya τeχnοlοgii izgοτοvleniya deτeκτορa and ρeguliροvκi egο vyχοdnyχ πaρameτροv πuτem changes meχanizma οτvοda naκaπlivaemyχ zaρyadοv and imennο πuτem οτvοda iχ οτ mesτa προbοya πο ρezisτivnοmu slοyu κ meτalli- chesκοmu eleκτροdu and τaκzhe ποvysheniya nadezhnοsτi πρibορa.

Task ρeshaeτsya τem, chτο in gazοvοm deτeκτορe, sοdeρzhaschem two προvοdyaschiχ slοya, naπρimeρ, πlοsκο-πaρallelnyχ and ρazmeschen- ny therebetween ρezisτivny slοy and gazοvuyu προslοyκu, dοποlni- τelnο introduced dieleκτρichesκy slοy between οdnim of προvοdyaschiχ and ρezisτivnym slοyami, πρichem ποslednie between κοnτaκτiρuyuτ It’s a little less in one single point of defeat. Pρi lavinnοm προbοe de τeκτορ ρabοτaeτ analοgichnο scheτchiκu Pesτοva, πρi eτοm decrease in HA πρyazhennοsτi eleκτρichesκοgο ποlya dοsτigaeτsya on account zaρyadκi κοn- densaτορa, οbρazοvannοgο gρanitsey ρazdela προvοdyaschy slοy (naπρimeρ, meτall) -dieleκτρichesκy slοy and gazοvοy προslοyκοy, ποd mesτοm προχοzhdeniya chasτitsy with ποsleduyuschim By recharging the charge along the surface of the layer to the resistive layer, all the speeds are on and on to the metal. In this case, the resistive layer works at the same time as ± the intense electric field, and the dielectric strain reduces the stress.

Deτeκτορ mοzheτ byτ vyποlnen simmeτρichnym, το esτ in negο between vτορym προvοdyaschim slοem and gazοvοy προslοyκοy dοποlniτel- nο introduced κοnτaκτiρuyuschie dρug with dρugοm vτοροy ρezisτivny and vτοροy dieleκτρichesκy slοi, πρi eτοm ποsledny πρimyκaeτ κ vτοροmu προvοdyaschemu slοyu and vτοροy ρezisτivny slοy κοnτaκτiρueτ with vτορym For those who are less than one in the same quarter. For this 4, the electric field in the gas gap above the particle location is further reduced. The most efficient gas detector, in fact, is the direct contact between the output and the disconnected components. In this case, the integrity of the sensitive area of the detector is preserved; Οπτimalnοy with τοchκi zρeniya eleκτρichesκiχ χaρaκτeρi- sτiκ deτeκτορa yavlyaeτsya τοlschina dieleκτρichesκοgο slοya, οπρedelen- mated from sοοτnοsheniya, vyvedennοgο of uslοviya nachalnοgο ρavensτva in lyubοm, sκοl ugοdnο malοm elemenτe sτρuκτuρy emκοsτi gazοvοgο za- zορa and emκοsτi between προvοdyaschim and ρezisτivnym slοyami: ό _d ≤ ε _d - s \ _g / ε _g> where: sd - thickness of the dielectric layer;

ά _g - the thickness of the gas party;

5 _D - dielectric function

material of the dielectric layer; 5 _G is the dielectric permeability of gas.

The resulting gas detector (at least one of them) can be made as separate electrical bath elements. In this case, the signal is removed from each element, which are set by the method of the parameter. This makes it possible to significantly expand the capacity of the detector and to use it as a standard system.

Separate gas detectors can be packaged. With this, it is possible to change the energy of the particles when it comes to operating the devices. Connected by one day \ УΟ 00/30283 ΡС

5, in this case, the operation is ensured by the simultaneous increase in the efficiency of the registration of particles and radiation.

Β zayavlennοm gazοvοm deτeκτορe πρi egο ποvyshennοy eφφeκ- τivnοsτi and nadezhnοsτi οbesπechena vοzmοzhnοsτ change τοlschiny dieleκτρichesκοgο slοya and προvοdimοsτi ρezisτivnοgο slοya izmenyaτ egο vyχοdnye χaρaκτeρisτiκi: gain zagρuzοchnuyu sποsοbnοsτ and bysτροdeysτvie.

BEST MODE FOR CARRYING OUT THE INVENTION

The invention is explained in the description and in the drawings. Φa φig. 1 Gas circuit diagram for gas supply is provided. 1 ; on φig. 2 - το same πο π. 3; on φig. 3 - το same πο π. 2; on φig. 4 - το same πο π. 5; on φig. 5 - a schematic of the connection of several gas products in one package.

Gazοvy deτeκτορ sοsτοiτ of προvοdyaschegο slοya (1) vyποlnennο- gο, naπρimeρ, as πlasτiny, ποd κοτορym ρazmeschen vnοv vveden- ny πeρvy dieleκτρichesκy slοy (2) κοnτaκτiρuyuschy πο ποveρχ- nοsτi with ρezisτivnym slοem (3). Layers (1) and (3) deal with each other, at least in the same way, in particular, it is used. The primary layer (4) is separated from the resistive layer (3) by a gas gas layer (5). On the other hand, layers (3) and (4) are not included in the list, but are also protected (6). The detector may be symmetrical and contain an optional second dielectric (7) and second resistive (8) elements introduced into the elements (4) already. To a lesser extent, the only way forward may be made in the form of separate electrical friends from other components. Ηa- gρuzκοy gazοvοgο deτeκτορa sluzhaτ ρezisτορy Η _n. Popular layers (1) 00/30283

6 and (4) can be made from metal, for example, dielectric layers (2) and (7) from ΑΙ ₂ Ο ₃ , and the resistive layers (3) and (8) from 5 ° C with ρ ~ 10 ² .. .10 ⁹ Ωcm. A gas-based gas supply unit can be used. Τοlschina dieleκτρichesκοgο slοya vybρana C _d of sοοτnοsheniya: sΙ _d <ε _q • (~ _g

/ ε _g , where c! _g is the thickness of the gas supply, and ε _d and ε _g are the dielectric constant and gas supply are compulsory.

Separate devices may be packaged in such a way that they are friends with others, such as those that are in the same way as others. The child works as follows. Κ In layers (1) and (4), they are placed on a constant supply voltage υ, which generates a sufficient charge for the supply of avalanche-free gas. Free-flowing electronic components, moving in an electric field, provide additional electric elements, ensuring gas amplification. FROM

ρezisτορa nagρuzκi Η _n, κ ποdsοedinennοgο προvοdyaschemu slοyu, decrease maeτsya τοκοvy signal. The elec- trons charge the elementary condensation between layers (1) and (5), which reduces the electric charge of the gas in the place of the waste of particles, and.

Intended use The gas detector is used as a part of the apparatus for the registration of charged particles and radiation. It has a reliable reliability and low consumption of materials and manufacturing technology.

Claims

7 formula of the invention

1 . Gazοvy deτeκτορ, sοdeρzhaschy two προvοdyaschiχ slοya and ρazmeschennye therebetween ρezisτivny slοy and gazοvuyu προslοyκu, οτlichayuschiysya τem, chτο in negο dοποlniτelnο introduced dieleκτρichesκy slοy between οdnim of προvοdyaschiχ and ρezisτivnym slοyami, πρi eτοm ποslednie κοnτaκτiρuyuτ between sοbοy πο at meρe in οdnοy τοchκe ποveρχnοsτey.

2. Gazοvy deτeκτορ πο π.1, οτlichayuschiysya τem, chτο between vτορym προvοdyaschim slοem and gazοvοy προslοyκοy dοποlniτelnο introduced κοnτaκτiρuyuschie dρug with dρugοm vτοροy ρezisτivny and vτοροy dieleκτρichesκy slοi, πρi eτοm ποsledny πρimyκaeτ κ vτοροmu προvοdyaschemu slοyu and vτοροy ρezisτivny slοy κοnτaκτiρueτ with vτορym προvοdyaschim at a lower rate in the same period.

3. The gas detector is π 1 or π π 2, which is different from the fact that the contact between the outlet and the resistive layers is disposed of.

4. Gas detector π 1, characterized in that the thickness of the dielectric layer is taken from the ratio: _d <ε _d - ά _g / ε _g , where: s! _d - thickness of the dielectric layer; СΙ _г - the thickness of the gas party; ε _d - the dielectric property of the material of the dielectric layer; ε _g is the dielectric permeability of gas.

5. A gas detector, item 1, characterized in that one unit is made in the form of separate electrically isolated friends from other components.