DE394706C - Ionization chamber - Google Patents

Description

GERMAN EMPIRE

ISSUED
AFiI 2. SIAI1924

REICH PATENT OFFICE

PATENT LETTERING

- M 394706 CLASS 21 g GROUP

(S 63114 Vin \ 2ig *)

Siemens & Halske Akt-Ges. in Siemensstadt b. Berlin.

Ionization chamber. Patented in the German Empire on June 16, 1923.

When determining the intensity of the X-rays using an ionization chamber one has for example to intensify the ionizing effect of the radiation, which in Air is relatively low, the electron emission of the wall is already used. A flat electrode has also been placed at an angle in the effective bundle of rays, so that the rays fall almost grazing on them and thereby a large effective surface is produced. There are also arrangements are known in which the ionization chamber is designed as an air condenser with multi-layered plates, one behind the other from the effective X-rays be enforced. This arrangement has due to the electron emission of all individual plates hit result in a high intensity of the ionization current, however, such a chamber also has a large electrostatic capacity. Through this with electrostatic measurement of the ionization current, as is common practice, the However, the sensitivity of the chamber is greatly reduced.

To avoid this disadvantage, so at the same time a chamber with a small electrostatic To obtain capacity and great sensitivity, according to the invention, that of the effective rays (X-rays) hit body (emission body) designed so that it is repeatedly affected by the rays is enforced. A suitable form is e.g. B. that of a zigzag band or one Spiral tape. The pri-

Marble rays trigger electrons, which ionize the gas content of the ionization chamber and thus generate a high conductivity of the ionization chamber space, which is a high Chamber sensitivity means.

The substance of the emission body is expediently selected such that it is a high emission there. For example, it has been shown that the effective electron emission ίο generally grows with the atomic number. The emissive body either becomes whole be formed from a strongly emitting substance, or the main emitting substance can be embedded in another substance as a carrier, which itself only has a weakly emitting effect, which is then necessary, for example, if the strongly emitting substance is only low Has strength, for example when using salts.

ao The surface that is effective for the emission can still be roughened with physical or chemical agents.

The specified means can be used in conjunction with further reinforcement of the ionization other means are needed that also increase ionization. So you can! z. B. expediently designed according to the specified j designs cell with a Fill gases that are strongly ionized by the primary X-rays, e.g. B. with methyl iodide, or with such a gas that is also moved by the impact of the electric field Electrons are strongly ionized, such as. B. noble gas. In the latter case, it is reduced the pressure achieves an increase in ionization. However, with other gas fillings atmospheric pressure or pressure increase are also cheaper. [The figure shows a schematic embodiment the invention. ι is the | Outer wall of an ionization chamber, 2 a j cylinder charged to a higher potential, 3 a | conductive zigzag tape to which an electroscope 4 is connected in a circuit known per se is. 6 are insulating bushings. The body 3 consists for example of paper as a carrier of the highly emissive Mass as which an impregnation of potassium iodine is taken. The paper tape is useful for increasing its conductivity provided with a graphite cover. Instead of an impregnated body, one can also use one made from consistently strong take emitting material, e.g. B. a j tinfoil tape. As an example for the further j The treatment of the tinfoil with iodine vapors is said to increase the surface by roughening it mentioned. The reference formed by the iodination gives a much larger surface, than the iodized tin possessed it. The intake of iodine is favorable because iodine, apart from its high atomic weight, shows a particularly high effective electron emission.

Such an ionization chamber should as a rule the strength of the ionization in general increase, but can be exploited by suitable choice of electron-emitting substances the characteristic electron emission for the individual substances also a relative increase in the emission for a prescribed one Wavelength range of the primary X-ray radiation are generated and generally a prescribed dependency the emission of the wavelength of the primary rays depending on the one for the Emission body selected substances.

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Claims (5)

Pate nt-An SPRxi c H e: I. Ionization chamber, in which solid bodies of radiation are used to emit Electrons are exposed, characterized in that the electron-emitting Body is made essentially of substances with high electron emission and is designed in such a way, preferably in the form of zigzag igen or spiral bands that the effective body surface is penetrated several times by the rays. 2. Ionization chamber according to claim 1, characterized in that the emission body on a carrier of less strongly emitting substances is arranged. 3. ionization chamber according to claim 1 or 2, characterized in that the Surface of the emission body is increased by roughening. 4. ionization chamber according to claim 1 to 3, characterized in that the mainly electron-emitting substances are chosen so that the strength the electron emission in a prescribed dependence on the wavelength the primary radiation. 5. ionization chamber according to claim 1 to 4, characterized in that the Electron-emitting bodies in a primary radiation or the electron radiation triggered by this is arranged stronger than air ionizable gases. For this purpose ι sheet of drawings