PL31335B1 - N. V. Philips' Gloeilampenfabrieken, Eindhoyen Electron tube and operating system with such tube - Google Patents

Description

The invention relates to an electron tube which contains an electrode of a coated substance which sends only a very small number of secondary electrons under the flow of electrons falling on it. It is known that difficulties may arise when using electron tubes when the electrons exiting the cathode of the lamp, they strike other electrodes or other parts of the lamp at high speed and release unwanted secondary electrons on the surfaces of these parts. From patents and magazines a large number of soda products are known to reduce secondary emissions; These measures generally consist in the fact that the surface from which the secondary electrons emanate is coated with a substance with such a property that only a very small number of electrons are released from the electrode by the effect of the electron beam incident on it. Tubes or anodes of the vacuum tube with substances such as chromium oxide, silver, nickel oxide, molybdenum oxide etc .; However, most of the time, carbon was used, especially in the form of soot, shows a very low secondary emission. A number of experiments and studies have confirmed that a very low secondary emission will be obtained if an electric lamp according to the invention is used in which one or more organs are , especially high voltage electrodes, are coated on the surface with pure metallic lithium or beryllium. Namely, it has been found that low atomic weight metals such as lithium and beryllium have very little secondary emissions, which may be due to therefore, that the electrodes falling on the surfaces, the coated substance, penetrate relatively deeply into these surfaces, so that the secondary electrons can only be emitted with great difficulty. It is known that the secondary emission of each substance varies depending on from the voltage between the electrode, the coated substance, and the source of the primary emission. When plotting the dependence of the secondary emission on this voltage, it can be seen that for all substances this curve has a maximum, that is, the secondary emission increases with the voltage until the voltage reaches a certain value, and then the emission decreases. it also has the particularly important advantage that the maximum secondary emission is at a relatively low voltage, and that the value of the maximum secondary emission is low. Namely, for beryllium this maximum is 0.6 secondary electrons per primary electron at 200 volts, and for lithium it is 0.5 secondary electrons per primary electron at 100 volts. Thus these substances are particularly well suited for use in electrode coatings having a high voltage during lamp operation, and in these cases exhibit even lower secondary emissions than other known substances used to reduce secondary mission, for example soot or aquadag. Thus, it is particularly advantageous to use these substances in electron tubes, the electrodes of which have a voltage generally well in excess of 200 V. According to the invention, the electron tube electrode can be easily coated with pure metallic lithium or beryllium by vapor coating. of this metal in a vacuum, which can be achieved, for example, by heating another electrode, cathode sputtering, etc. PL

Claims (2)

Patent claims. 1. An electron tube, characterized by an electrode, coated with a layer of pure metallic lithium or beryllium. 2. Working system with an electron tube according to claim A method according to claim 1, characterized in that the electrode, a coated layer of lithium or beryllium, is connected to a voltage source in excess of 200 V during operation of the lamp. N. V. Philip's Gloeilampenfabr and Ken Deputy: Eng. F. Winnicki, Patent Attorney 40248 PL