CH186976A - Anode material for electrothermally modulatable emitters and process for their production. - Google Patents

Description

       

  Anode material for electrothermally modulatable emitters and process for their production. Most of the known methods for producing modulated light, such as Kerr cells, oscilloscope mirrors, light locks etc. have the disadvantage that the size of the controllable luminous flux is very limited. In addition, these control organs are relatively complex and expensive facilities.

   It is therefore desirable, especially for the purposes of light telephony, to have thermal emitters which have such a small heat transfer unit that they change their temperature with controllable power supply up to frequencies of a few 1000 Hertz. The required low thermal inertia cannot be achieved with thin tungsten wires heated directly through the passage of current. More favorable are emitters in which an anode is heated by electron bombardment, because in this case it is primarily the outermost surface that takes part in the temperature fluctuations. The anode must naturally consist of a material that has a very low thermal conductivity and an equally low thermal capacity.



  According to the invention this is achieved in that an organic cell structure by chemical BEZW. Physical methods are converted into a structure from high, that means over 2000 C melting and in a vacuum heavier than carbon evaporate the pure elements or compounds.

   For this purpose, the organic tissue is expediently boiled for a long time in a solution that contains the high-melting substance or a high-melting component of the same (for example elderberry pulp in a solution of sodium tungstate). Then the high-melting substance is z. B. precipitated as oxide.

   When the entire tissue is slowly burned, this oxide remains as an ash framework, and it can be converted into the pure, high-melting element or into a high-melting compound by reducing it in a hydrogen stream or by carburizing it in a hydrocarbon stream, with a suitable design During these processes the shape of the original cell structure is retained.



       Fig. 1 shows in cross section, for example, the structure of a tungsten anode, as it was obtained by transferring elderberry pith (after a micrograph with 250 times magnification).



  In Fig. 2, the structure of a radiator with an anode according to the invention is shown schematically as an application example. It denotes: 1 the anode, 2 the heating wire, 3 a grid to control the electron flow, 4 a screen to concentrate the electron bombardment on the tip of the anode.


    

Claims (1)

PATENT CLAIMS: I. Anode material with a cell structure that has cell walls less than 1000 mm thick, for electrothermally modulable emitters, in which the heating is carried out by controlled electron bombing, characterized in that the cell walls consist of a temperature of over 2000 ° C , exist in a vacuum heavier than carbon evaporable substance. II. A method for producing anode material according to patent claim I, characterized in that metal salts are introduced into the cell walls of a cell structure taken from an organism, the metals evaporating in a vacuum more heavily than coal to produce the final melting point above 2000 ° cell walls can be used.