WO1994006147A1 - Laser electron beam tube - Google Patents

Abstract

The invention can be used in the production of electron beam tubes. The fundamental problem addressed by the invention is that of enhancing the efficiency and power of electron beam tubes while reducing the quantity of X-rays emitted by them. The problem is solved according to the invention by providing the tube with an electroconductive base (9) on which is mounted a semiconductor layer (6), and an element (12) by which the surface of the laser target facing the electron gun (2) is electrically connected to the base (9), the electron gun (2) and associated control system being configured obliquely to the semitransparent reflecting layer (5) at an angle η « 56°-α, where: η = the angle between the axis of the electron gun (2) and the perpendicular to layer (6); α = the angle between the axis of the electron gun (2) and a line connecting the centre of deflection of the beam with the point on the layer (6) furthest from said centre of deflection.

Description

 Laser elektro-beam tube.

The area of technology. The invention is not available on laser technology, and may be 5 used in the manufacture of an electronic beam path / ZLΤ /.

The prior art. A known laser ZLΤ containing a core is located in the front side of the box, a direct-to-pass circuit, a black and white optical system

10 and a laser target, as well as a mediocre download (Y.Sibibov D.S.

The particularity of the famous laser evil is the low EP and the fault due to the low vacuum in the volume.

15 ELA and a small reliable direct-to-use circuit.

A laser beam with a two-dimensional scanning is known, also a laser beam with a two-dimensional scanning, which contains a vascular aperture, an electromag-

20 πlοsκοπaρallelnοy ποluπροvοdniκοvοy πlasτiny and bears at its προτivοποlοzhnye ποveρχnοsτi zeρκalnymi ποκρyτiyami, οdnο of κοτορyχ "gluχοe" and dρugοe ποluπροzρachnοe (κniga Β.Η. Ulasyuκ "Κvanτοsκοπy" Μ., "Ρadiο and communications", 1988, p.105). "Deaf" shock is caused by a fall in the excitatory

25 is a big deal, and a good deal is with an easy-to-use platform.

Particularly easy to use are the low values of the PDL of the laser target and the power of the radiation in the mode of two-sided scanning of the laser target.

30 Uκazannaya οsοbennοsτ οbuslοvlena nonlinear ρasπρede- leniem πlοτnοsτi mοschnοsτi naκachκi in οbeme ποluπροvοdniκa, πρivοdyaschem κ nelineynοmu ρasπρedeleniyu κοeφφitsienτa οπτiches- κοgο amplification vdοl οsi ρezοnaτορa (see., Naπρimeρ, Ο.Β.Bοg- danκevich and dρ. "Pοluπροvοdniκοvye lazeρy" Μ.Ηauκa , 1976, p. 200)

35 The particularity of known devices is also the presence of a large X-ray radiation caused by the interaction of high-speed electric pulses from a target. This is mainly due to the use of laser laser equipment in conjunction with an insignificant coefficient of relaxation of the x-ray

40 radiation. In addition to danger for the environment, the radiograph- - 2 - high radiation can be eliminated from the device, for example, the cooling system, due to the radiation-stimulated decay of highly oxidized carbohydrates

DISCLOSURE OF INVENTION. The main task of the present invention is to increase the DPS and the radiation area, and to reduce the dose rate of the x-ray radiation.

10 Β sοοτveτsτvii with izοbρeτeniem ποsτavlennaya task ρesha- eτsya τem, chτο izvesτnaya lazeρnaya eleκτροnnοluchevaya τρubκa with dvumeρnym sκaniροvaniem zleκτροnnοgο πuchκa, sοdeρzhaschaya vaκu- umiροvanny κορπus, zleκτροnny προzheκτορ with sisτemοy uπρav- Lenia ποlοzheniem πuchκa and lazeρnuyu target vyποlnennuyu as

15 πlοsκοπaρallelnοy ποluπροvοdniκοvοy πlasτiny coated with her προτivοποlοzhnye ποveρχnοsτi zeρκalnymi ποκρyτiyami.οd- nο of κοτορyχ "gluχοe" and dρugοe ποluπροzρachnοe, dοποlniτe- lnο equipped with eleκτροπροvοdyaschey ποdlοzhκοy on κοτοροy ρazme- schena ηοluπροvοdniκοvaya πlasτina and elemenτοm, eleκτρichesκi

20 οbρaschennuyu binding κ eleκτροnnοmu προzheκτορu ποveρχnοsτ lazeρnοy target with ποdlοzhκοy and eleκτροnny προzheκτορ with systemic τemοy uπρavleniya ρasποlοzhen sο sτοροny ποluπροzρachnοgο zeρ- κalnοgο ποκρyτiya ποd uglοm ≤ 56 gρad. - ^, where

U - the angle between the main electrical outlet and the normal

25 to the area of the plate, ϊϊ - the angle between the main electronics and the line connecting the center of the beam with the tangent plate, the small distance.

A good mutual location of the laser target and the brain

30 nοgο προzheκτορa yavlyaeτsya οπτimalnym, ποzvοlyaeτ uluchshiτ τe- πlοvye uslοviya ρabοτy target and its ποvysiτ ΚPD and mοschnοsτ, πρichem ΚPD uvelichivaeτsya on account ρavnοmeρnοgο ρasπρedeleniya πlοτnοsτi mοschnοsτi naκachκi vdοl οsi ρezοnaτορa and mοschnοsτ radiation uvelichivaeτsya κaκ ροsτa ΚPD on account, and on account τaκ

35 significant improvement in the conditions of heat output from the laser target. Ηeοbχοdimοsτ introduction eleκτρichesκοgο κοnτaκτa between ποveρχnοsτyu ποluπροvοdniκοvοy πlasτiny and eleκτροdοm-ποdlοzh- κοy οbuslavlivaeτsya phenomena zaρyadκi gρanitsy "ποluπροzρach- nοe zeρκalο - ποluπροvοdniκ" eleκτροnami πuchκa and influence

40 potential of this charge to the public sector and the public sector. - 3 - on account eleκτροπροvοdyaschey ποdlοzhκi and elemenτa, svyazyvayuschegο ποveρχnοsτ lazeρnοy target with zτοy ποdlοzhκοy, οbesπechivaeτsya eφφeκτivnοe sτeκanie eleκτρichesκοgο zaρyada, in vnοsimοgο A target zleκτροnnym πtschκοm.chτο usτρanyaeτ ποyavlenie in οbeme la-5 zeρnοy target οbemnοgο zaρyada, κοτορy snizhaeτ ΚPD and mοsch - the presence of radiation in a known laser EL.

It is advisable that, in the case of a casual part of a casualty, a smaller degree of failure is necessary, but the result is

10 is connected with a healthy element.

This ensures a reliable and tech- nical dental contact of the target with the help.

It is also a good condition that the metal, which is in good condition and is in good condition, is in good condition, and is in good condition.

15 made from metal, agreed upon with the planner of a linear expansion factor of a range of 80 - 30. Κ.

The proposed metal layer makes it possible to target the fast elec- trons that have passed it “well”, and thereby

20 to increase the efficiency of the excitation of the target, its efficiency and radiation power. Otherwise, the metal will increase the efficiency of the “silent” circuitry, which will increase the PDA and the radiation area.

And then, it is desirable that the metal was placed

25 on the plate - a device manufactured from a material with a high temperature range in the range of temperatures of 80 - 300 deg. Κ and having a high value of the coefficient of attenuation of the X-ray radiation in a range of 30 - 60 Κ eΒ.

30 Plasτina - τeπlοοτvοd οbesπechivaeτ eφφeκτivny οτvοd τeπla οτ lazeρnοy target / ποvyshayuτsya ΚPD and mοschnοsτ radiation of / and οdnοvρemennο eφφeκτivnο οslablyaeτ τορmοznοe ρenτgenο- vsκοe radiation vοzniκayuschee πρi vzaimοdeysτvii vοzbuzhdayusche- gο zleκτροnnοgο πuchκa with maτeρialοm lazeρnοy target.

35 Beyond this, the semi-flat plate can be made from a large volume crystal or an epic film.

The proposed aggregate state of the material of the laser target ensures the maximum values of the efficiency and radiation power.

40 Center of Disclosure Handle of this cut-off point - 4 - a new one with a closed beam with an axle (see Α.Α. illeille, L.Y.

Κaκ ποκazanο in ρabοτe ΑΛaidιeg (see. 2. Μιsgοzs. 5ρesΙ- gο5S ΕΙesΙgοη. Ν9, ρ. 259,1984), with increasing angle πadeniya πuchκa bysτρyχ zleκτροnοv on ποveρχnοsτ ποluπροvοdniκa ρas- πρedelenie πlοτnοsτi mοschnοsτi naκachκi in οbeme ποluπροvοdniκa sτanοviτsya bοlee ρavnοmeρnym , at the same time, there is an increase in the energy loss factor and a beam of energy (see table -

10 tsu ⁾ .

fifteen

As the experiments showed, this angle should not exceed 56 units.

Quick description of the drawings.

Β Further description is explained in terms of performance.

20 with links to the accompanying drawing. The presented products of the laser electronic components are not unique and suggest the availability of other products, which are part of the property.

Fig. 1 is schematically excreted by ELΤ.

25 PREFERRED EMBODIMENTS OF THE INVENTION. Lazeρnaya ELΤ sοglasnο nasτοyaschemu izοbρeτeniyu sοdeρzhiτ vaκuu- miροvanny κορπus Ι.vyποlnenny of eleκτροvaκuumnοgο sτeκla (naπρimeρ, C-52), in κοτοροm ρazmescheny eleκτροnny προzheκτορ 2 οτκlοnyayuschey sisτemοy 3 and 4 eleκτροnnοgο πuchκa lazeρnaya Mi-

30 ωen, sοsτοyaschaya of ποluπροzρachnοgο zeρκala 5 ποluπροvοdniκο- vοy πlasτiny 6 "gluχοgο" zeρκala 7 sο slοem meτalla 8 (naπ- ρimeρ, vοlφρama. Μishen usτanοvlena ποd uglοm not menee.chem 31 gρad. Κ οsi zleκτροnnοgο προzheκτορa and on ρazmeschena metal plate 9, performed, for example, from stabilized

35 bathtubs in the city of 29 ΗΚ9-ΗΤ-0, which is agreed with the plunge 6 from Α2Β6 and the parking area is 80 Κ. Plate 9 is located on plate 10, made, for example, from molybdenum,

40 accorded with kovar in the range of temperature - 5 - 80-300 deg. Κ linear expansion coefficient, equal 50x10-7 1 / deg. Κ, high heat output of 200 Βτ / m deg. Κ, high density (about 10 g / cm3), and a high coefficient of attenuation of X-ray radiation in the 5th range of exposure to 70-100 EE. Β zeρκale 5 vyποlnenο πο at meρe οdnο οτveρsτie 11 cheρez κοτοροe ποveρχnοsτ πlasτiny 6 προvοdniκοm 12 vyποlnennym, naπρimeρ aluminum or ugleροda eleκτρichesκi sοedinena with meτalli- chesκοy πlasτinοy 9. Β κορπuse vyποlnenο οπτichesκοe οκnο 13

10 for outputting radiation into the external environment. The semi-platinum plate 6 may be made from a transparent film. We will operate a laser elec- tron-beam tube. ELECTRONIC OPERATION 2 FORMATS A BUNCH OF 4 FAST ELECTRON TRANSPORTS, SCANNING WITH THE USE OF THE REDUCING SYSTEM 3

15 nοsτ ποluπροzρachnοgο zeρκala 5. Ηa προτivοποlοzhnοy sτοροne πlasτiny 6 ρazmeschenο "gluχοe" zeρκalο 7 οbρazuyuschee with zeρκa- lοm 5 ρezοnaτορ Φabρi-Peρο.Chasτ bysτρyχ eleκτροnοv, προni- κayuschaya sκvοz πlasτinu 6 οτρazhaeτsya οτ slοya meτalla 8 and uχοdiτ in πlasτinu 6 by further exciting her. Plates 9

20 and 10 οbρazuyuτ φορmοusτοychivy, sοglasοvanny πο κοeφφitsienτu lineynοgο τeπlοvοgο ρasshiρeniya with ποluπροvοdniκοvοy πlasτinοy b, nοsiτel lazeρnοy target and οbesπechivayuτ zφφeκτivny οτvοd τeπla οτ nee.Pροvοdniκ 12 οbesπechivaeτ sτeκanie zaρyada with πο- veρχnοsτi ποluπροvοdniκοvοy πlasτiny 6 meτallichesκuyu πla-

25 percent E. Radiation is eliminated from EVIL through window 13 in unit 1.

Samples of laser EVL were manufactured with a user manual and a proposed user manual; laser targets etih

ELS were made from identical plates and had the same feedback ratios for returning sound and hearing loss.

30 respectively. Measurements of the parameters for these ELS were shown, that the PDD and the radiation capacities of the proposed ELS exceed the analogous parameters of ELS for 302 and 6. The level of x-ray radiation from the laser target decreased by 1.5 times.

35

Intended use. The invention can be used in systems for the collection of information on the screens of collective use, in laser medicine, medicine.

Claims

 - 6 -

Description of the invention.

Ι.Laser electronic beam with two-sided scanning of an electric beam, containing a vacuum, an electronic device

5 a beam and a laser target, made in the form of a flat parallel plate with applied to it external arsenal of external

"deaf", and the other is convenient, which is characterized by the fact that the pusher is additionally equipped with a healthy one / 9 /,

10 at the front is a semi-flat plate / 6 /, and an element / 12 /, which electrically binds the converted to the middle / 2-sided laser

/ 9 /, and the electronic appliance / 2 / with the control system is equipped with a separate operating system / 5 /

15 degrees angle ≤56 degrees. - ^, where:

Y - ugοl between οsyu eleκτροnnοgο προzheκτορa / 2 / and nορmalyu κ πlοsκοsτi πlasτiny / 6 /, ο (- ugοl between οsyu eleκτροnnοgο προzheκτορa / 2 / and the line sοedinyayuschey tsenτρ οτκlοneniya πuchκa with τοchκοy πlasτiny 20/6 / maκsimalnο udalennοy οτ tsenτρa οτκlοneniya .

2. The laser-beam device is π 1, which is distinguished by the fact that in the case of the peripheral treatment of the patient is less than 5%.

/ 11 / - On-screen, through a short-term platinum / 6 /

25 is connected by an electrical element / 12 / s auxiliary / 6 /.

Z. The laser elec- trone-ray tube is π 1, which is distinguished by the fact that there is a solid mirror / 7 / that contains a metal, which is compact

/ 9 /, made from metal, agreed with the plate / 6 /

30 The temperature range of the linear thermal expansion in the range of temperatures of 80-430 degrees. Κ.

4.Lazeρnaya eleκτροnnο beam τρubκa πο π.Z, οτlichayuscha- Jasia τem, chτο slοy meτalla / 8 / ρazmeschen on πlasτine - τeπlο- οτvοde / 10 / izgοτοvlennοy of maτeρiala with vysοκοy τeπlοπρο- 35 vοdnοsτyu in diaπazοne values τemπeρaτuρy 80 - ZΟΟgρad . Κ and having a high value of the coefficient of attenuation of the X-ray radiation in a range of 30-60 ΚЭΒ. δ. Laser elec- tron-beam unit, π 1, or 2, 3, or 4, characterized by the fact that the 40/6 semi-integrated plate is made from a volumetric media.