DE2114047B2 - Grid assembly for gas filled spark gap chamber particles detector - has gold plated tungsten wires parallel in each grid and parallel frame parts also of tungsten - Google Patents

Abstract

The grid assembly, for a gas-filled spark gap-chamber particle detector, has grids consisting of several parallel wires held in a frame. The wires in adjacent grids are not parallel. The grids are insulated from one another. Those parts of the frames lying in the direction of the taut wires are made of the same material as the wires i.e. tungsten. The parts of the frames in which the ends of the wires are fixed a are made of ceramic strips partially metallised to give hard solder connections to the wires. The tungsten wires are gold-plated and mutually insulated.

Description

The invention relates to a grid for a gas-filled spark chamber arranged in a vessel, wherein each grid consists of several parallel wires arranged on a frame, wherein the grids are insulated from each other and wherein the direction of the wires from adjacent grids is not parallel.

From the DT-OS 19 27 633 an arrangement for visualization and / or recording of the flux density is of gamma quanta or the two-dimensional density distribution of beta particles with a gas and vapor-filled spark discharge chamber known. In this spark discharge chamber are a flat one Cathode and a flat anode running parallel to this are provided, with electrodes between these an auxiliary electrode, also made of metal gauze, is arranged. The anode and auxiliary electrode are off alternately made parallel wires and arranged to one another so that these wires one another cross.

Spark chambers are of particular importance for the detection of high-energy radiation. The incident Radiation ionizes what is under overpressure on its way inside the spark chamber Gas, so that there is a spark discharge between every two adjacent parallel wire grids the wires in question. Due to the discharge current flowing in the affected grid wires, external connections are connected in the manner of a pulse Ferrite core circles reversed in polarity and thus show the relevant cross point as local fixation. This phenomenon continues in other parallel wire grids in such a way that finally the direction of the incident radiation can be determined from the position of the wires concerned. Extremely clean surface of the wires and the is important for the functioning of the spark chamber Other structural parts, so that no oxide and water skins or other signs of decomposition occur the contact potential on the grid wires is somehow changed unfavorably. In addition, that very high demands are placed on the mechanical stability of the electrode structure, because such Chamber is also suitable for transport into space and extreme accelerations occur in the process can.

The object of the invention is therefore to create grids for a gas-filled spark chamber arranged in a vessel, which have extremely clean surfaces and which have high mechanical stability. To solve this problem it is provided in a grid of the type mentioned according to the invention that the frame in the direction of the tensioned wires consists of the same material as the wires, that the parts of the frame at which the wires end are made of ceramic strips , which are partially metallized and hard-soldered to the wires, consist that the metallization is separated by incisions between the wires and that the individual wires are led out of the vessel at least on one side in a gas-tight manner and insulated from one another.

The metal parts of the Tensioning frame and the tensioning grid wires made of tungsten, the latter of which are gold-plated.

An embodiment of the invention will be explained with reference to the drawing.

In the figure, 1 denotes tension grid wires, which are made of tungsten and are gold-plated. you Diameter is 50 μm. They are on the flanks 2 two ceramic strips 3 spaced apart from one another by means of high-temperature soldering, for example with Silver or its alloys, brazed in the usual way. For this purpose, the relevant flanks 2 are with a metallization area 4 is provided. After soldering the grid wires! are metallization area and solder flux divided by incisions 5 between the wires 1, so that there is sufficient insulation at Use of e.g. B. aluminum oxide is guaranteed. The ceramic strips are spaced from one another corresponding to a tensioning grid frame by spacing rods 6 made of tungsten.

1 sheet of drawings

Claims (2)

Patent claims: 1. Grid for a gas-filled spark chamber arranged in a vessel, each grid being made of consists of several parallel wires arranged on a frame, the grid are insulated from each other and where the direction of the wires from adjacent grids is not parallel is, characterized in that the frame in the direction of the tensioned wires from the The same material as the wires is used to make the parts of the frame where the wires end Ceramic strips, which are partially metallized and brazed to the wires, exist that the Metallization is separated by incisions between the wires and that the individual Wires are led out of the vessel in a gastight manner on at least one side and insulated from one another are. 2. Grid according to claim 1, in which the material of the wires is tungsten, characterized in that that the wires are gold-plated.