DE1816459B1 - Neutron generator - Google Patents

Description

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The invention relates to a neutron generator and insulator unit formed laterally from the Vamit one lying on high voltage potential and a vacuum housing can be removed. electrically insulated in a vacuum housing- The current carrying capacity of the ion source is determined by

Neten ion source for generating an ion beam liquid cooling increased, the ion source bundle and a target in which the ion beam 5 through a hole in the post insulator with an isolating bundle generated neutrons by means of nuclear reactions. renden coolant is supplied.

Neutron generators are nuclear physics devices for supplying deuterium gas to the ion source

rate, which is initially only required in relatively small numbers at the end facing away from the ion source and are of considerable value. Such of the removable insulator a gas reducing valve Devices are also arranged, in particular for research, with the ion source via a through For purposes in the field of nuclear physics, the insulator-guided metallic tube is repeatedly connected to be adapted and required to very special tasks and by means of an electrically insulating hose Training courses that optimally fulfill these tasks are fed with deuterium gas, one or more components. To the vacuum tube surrounding the ion source

As a result, a considerable financial outlay is required, an assembly consisting of a suction electrode and target may be required, to which the application of a holder can be connected, Neutron generators limited to a minimum. with suction electrode and target holder on earth

From the German patent 745 240 is a potential lie. It is also possible to use the target Known neutron generator, the ion source of which is designed as a rotating target. Becomes a larger off-high voltage potential and there was a vacuum between the ion source and the target at the front housing is flanged. However, the ion source is required to have a certain target size, so it can be not enclosed on all sides by the vacuum housing, so vacuum housing also has an electrostatic lens assembly High-voltage parts from the outside access system for focusing the ion beam and are borrowed and the operational handling of this an ion tube flanged to accommodate the target Establishment is extremely difficult. 25 become.

In the case of the one known from German patent specification 1,276,221, a higher voltage is applied to the ion source Neutron generator is the ion source to be put on, so advantageously the ions Flanged vacuum housing and outside of it by an insulated sheet metal jacket same in a separate vacuum housing, with enclosed, whose potential is lower than that of the 30 ion source is placed in an insulating liquid-filled space. It is also possible to arrange the sheet metal. As a result, accidental contact with the jacket electrically leads to high voltage with a lens electrode Secure horizontal components.

avoided, but the possibility of manipulation Another possible variation is to

at the ion source difficult or severely restricted to the vacuum cupboard surrounding the ion source. 35 housing an extraction ball that is at ground potential

From the German Auslegeschrift 1 080 234 is a ferrode and a transducer isolated in a vacuum housing a neutron generator is known, in which a suspended, negative high voltage High-voltage potential ion source is connected to the target housing. The one in the target side is enclosed by a vacuum housing. Ions entering the housing are in this arrangement Vacuum housing is however a melted-off 40 voltage already so pre-accelerated that a doubling glass vessel, so that an adaptation of this neutronization of the ion energy is achieved with bypassing generator to specific tasks by alternatively dealing with the difficulties of doubling the number of ions of electrodes and target holders not source voltage. In the event that a larger possible is. stood between the accelerator and the target

The object of the invention is to create a neutron 45 between the ion source and the target to create a generator that is easy to use, focusing system with adjustable lens clamping and high operational reliability can be used in a variety of ways.

and in an economical way optimally different- To additionally increase the ion energy

borrowed tasks can be customized. to which the ions are accelerated in the direction of the target

According to the invention, this object is achieved by the electrode system being released from the linear, that the ion source as a structural unit in a known accelerator principle with high-frequency rotational symmetry Ion source housing applied together modulated voltage, of several on the ion source- The ion source can also be used instead of the permanent

housing radially attacking, perpendicular to the ion magnet to generate the magnetic field Beam-directed isolators are carried and equipped with a coil by 55. It is before Metallic vacuum lying at ground potential partially, this coil from the heating circuit of the housing is enclosed on all sides, to whose ion source lying the ion high voltage potential Feed a flange on the opposite side of the outlet opening. In doing so, the heating transformer is de-energized optional connection of assemblies accepted AC voltage rectified and through is arranged, the 60 adapted to the specific tasks in the connection block of the supply lines to target holder and electrodes for suction and / or controlled actuator. Through this action-focussing of the ion beam included. me, an isolating transformer is saved that would otherwise be

The ion source is expediently required for the voltage supply of the ion source carried two insulators, one of which would be festive.

with the vacuum housing and detachable with the ion 65 Embodiments of the invention are in the source housing and the other fixed with the ion drawing and are shown in more detail below source housing and described releasably with the vacuum housing. It shows is connected, and that the ion source housing F i g. 1 erne ion source in a vacuum housing,

3 4

F i g. 2 a neutron generator with a grounded to the flange 402 of the ion source 1 around

Target holder, closing vacuum housing 4, a high-

F i g. 3 a neutron generator with a focusing vacuum pump; units can be attached to the flange 403

Approximation device and ion source enveloping can be connected to specific tasks

Control electrode, 5 adapted target holders and electrodes for

F i g. 4 a neutron generator with suction and / or focusing of ion beams

tive high-voltage potential containing target,

holder, in Fig. 2 is on the flange 403 of the vacuum

F i g. 5 a neutron generator with a focus housing 4 flanged an assembly that has a

approximately device and on negative high voltage io earth potential lying suction electrode 6 and one

potential target holder. Target holder 7 with a target 8 contains. From the-

In Fig. 1, the ion source 1 is supported by the support stand of the target from the entry plane of the ions in isolators 2 and 3. The insulator 2 is arranged in the vacuum housing 4 enclosing the ion source, for example, 100 to 200 mm with a target diameter and is in a bearing shell of the 15 water from 30 to 100 mm. The target holder is pressed with an ion source housing 5. The isolator 3 is equipped with gas or liquid cooling,
firmly connected to the ion source housing 5. This _ Instead of the stationary target, a rotating target (not shown) consisting of the ion source housing, insulator and support flange could also be installed.
401 existing unit can be shown after loosening the flange. The ion source 1 is provided by the. Here z. B. on the ion source 1 a metallic housing 5 is enclosed, which has a positive high voltage of about 150 kV, at the ion outlet opening 501 and a cover 502 lens electrodes 901 a positive high voltage sits. After removing the cover 502 , the cathode flange 101 carrying the approximately 100 kV and a cathode on the lens electrode 902 , which is against 25 z. B. in the range of -30 kV to + 30 kV change the housing 5 and the cooling channel 102 by a bare voltage.

Sealing ring 103 is sealed, in order to replace the. In order to be able to draw a higher voltage at the cathode at the ion source without being able to cool down, the ion source housing 5 will have to be drained of liquid. an insulated suspended sheet metal jacket 10 enclosed

In the central bore 301 of the insulator 3 there is 30 sen, the potential of which is lower than that of the ion source, a stainless steel tube 302 carrying the anode current. This sheet metal jacket can also, for. B. to which the conical lens electrode 901 made of insulating material can be conductively connected.
Connection piece 303 is passed. In Fig. 4 another Baugung of the ion source with deuterium gas is connected to the flange 403 by a group in which the target 8 with which the tube 302 insulates an externally insulated copper tube 304 35 target holder la in a vacuum housing 11 , which on one side with the cathode and placed on negative high voltage potential flange, on the other side with a through the tial. The extraction electrode 6 is located on Earth gas pressure or mechanically controlled needle valve potential, the ion source 1 at a positive Hochspan- 305 connected. potential. This results in a doubling of the tube 302 , a cable 306, 40 for the ion energy, while avoiding the difficulties that would occur if the ion source is supplied to the cathodes with heating current, is available together with the copper tube 304. Over the voltage doubled and the target on earth potential copper pipe 304 and the cable 306 is also laid.

required to maintain the plasma The target housing is connected by two sides

Current is passed, which is held via the anode and the tube 302 45 which attack insulators 12 , 13,

is derived. The high-voltage cable 14 is through the insulator 12

Led to the power supply of the intermediate electrode, via bores 15 in the insulator 13, the

105 an insulated cable is also supplied with liquid coolant for cooling the target through the tube 302.

307 , which is attached to and derived from known switching elements,

is closed. 50 Also in Fig. 5 the target is on negative

In the tube 302 there is also a hose 308 to the high-voltage potential and is in a vacuum discharge of the liquid cooling the ion source. chamber hung in isolation. Because of the larger residual cross-section of the tube 302 required between the supply of the cooling liquid through the ion source and the target. A focusing system 9 with adjustable

A lens tension of 55 is provided on the conical fitting 303. The target holder 7 b with

Insulating material existing connection block 309 oil - the target 8 is arranged in an ion tube 16 b ,

placed tightly. To supply the ion source with The ion tube is connected to a ground potential

High voltage, pulse voltage and heating current are enclosed in the housing 17 , which is attached to the housing 18

Connection block 309 plug-in connection, not shown, of the focusing system connected in a vacuum-tight manner.

gen arranged, with the high voltage over a 60 sen.

Cable, the supply voltages of the ion source The advantages achieved with the invention exist

supplied via transformers not shown in particular that neutron generators with

will. significantly less effort than before

The needle valve 305 is economically optimized for various tasks via an insulating rod.

can be adjusted and adjusted 65 times using an insulating tube so that they can be used

rium gas supplied. In connection block 309 training areas are also significantly expanded. In order to

Channels not shown for the coolant supply are also connected to an increase in operational reliability

provided. ness and ease of use.

Claims (11)

Patent claims: 1. Neutron generator with a high voltage potential and in one Ion source arranged in an electrically isolated vacuum housing for generating an ion beam and a target in which the ion beam by means of nuclear reactions neutrons generated, characterized in that the ion source (1) as a structural unit in one rotationally symmetrical ion source housing (5) is summarized by several on which Ion source housing (5) radially acting insulators directed perpendicular to the ion beam (2, 3) and carried by the metallic vacuum housing which is at ground potential (4) is enclosed on all sides, on its side opposite the ion exit opening (501) a flange (403) is arranged for the optional connection of assemblies to specific Tasks adapted target holders and electrodes for suctioning and / or focusing the ion beam contain. 2. Neutron generator according to claim 1, characterized in that the ion source of two insulators (2, 3) is carried, one of which is fixed to the vacuum housing (4) and detachable with the ion source housing (5) and the other fixed to the ion source housing (5) and detachable is connected to the vacuum housing (4), and that the ion source housing (S) and insulator (3) formed unit can be removed from the side of the vacuum housing (4). 3. Neutron generator according to claim 1 or 2, characterized in that the ion source (1) is cooled with an insulating liquid through channels (301) in the insulator (3). 4. Neutron generator according to claim 2 or 3, characterized in that for feeding of deuterium gas to the ion source (1) at the end of the remote from the ion source removable insulator (3) a gas reducing valve (305) is arranged, which is connected to the ion source is connected via a metallic tube (304) guided through the insulator (3) and via an electrically insulating hose with the deuterium gas is fed. 5. Neutron generator according to one or more of claims 1 to 4, characterized in that that on the flange (403) an assembly consisting of suction electrode and target holder is connected, with suction electrode and target holder in a manner known per se Earth potential and the target is designed as a stationary target or as a rotating target. 6. Neutron generator according to one or more of claims 1 to 4, characterized in that on the flange (403) a known electrostatic lens system (9) for focusing the ion beam and an ion tube (17) arranged within a housing (17) at ground potential. 16 b) for receiving the target (8) are connected. 7. Neutron generator according to one or more of claims 1 to 6, characterized in that the ion source is enclosed by an insulated suspended sheet metal jacket (10), the potential of which is lower than that of the ion source (1). Λ 8. Neutron generator according to claim 7, da- ^ characterized in that the sheet metal jacket (10) is electrically connected to one of the electrodes of the focusing system (9). 9. Neutron generator according to one or more of claims 1 to 5, characterized in that on the flange (403) a suction electrode (6) which is at ground potential and a target housing (7 ä ) are connected. 10. Neutron generator according to one or more of claims 1 to 9, characterized in that that of the electrode system accelerating the ions in the direction of the target a voltage modulated with high frequency according to the principle known from the linear accelerator is created. 11. neutron generator according to one or more of claims 1 to 10 with a duoplasmatron as an ion source, thereby characterized marked μ, that disposed in the ion source ™ magnetic coil from the heating current of the ion source is fed. For this purpose 2 sheets of drawings