SU48889A1 - Photocell with multi-stage secondary-electronic photocurrent amplification - Google Patents

Description

L. D. Kubetsky, the main author's certificate No. 45765, describes a method for amplifying electron fluxes based on the use of secondary electron emission, in which the electron current initially obtained from a thermionic or photoelectronic emission source in the same vacuum device grows like an avalanche. electron fluxes in a system of successively activated electrodes in such a way that secondary radiation from each electrode causes aets hit electronic emissions from the previous electrode.

The photocell proposed according to the invention is one of the series of devices proposed for implementing the above method.

In particular, devices have been proposed in which a magnetic and electric field are used for the orientation of electrons.

As you dreamed from the experimental studies of the authors of the present invention, a very convenient to manufacture and operating without a magnetic field focusing the electron beams is the construction of a photocell with multi-stage internal amplification of the photocurrent shown in the drawing by means of secondary emission. In the drawing, the letter K stands for a cesium photocathode located on the surface of a glass bulb with the letters GI, € 2, C3 ... Cn cones whose surface is covered with some substance capable of producing a sufficiently large secondary emission of electrons, and the letter A-anode of the photocell .

The essence of this design is that the electrodes, which are used to obtain secondary emission in the direction of the electron fluxes, have the form of short truncated cones C, Q, Cg ... Sc and are oriented coaxially with the sharp side of one end to the expanded part of the next.

In the drawing fzg. 2 shows the distribution of lines of force in the space between two adjacent electrodes. Electrons emitted from the inner surface of electrode C are focused in a narrow region between E and F, whence a strong electric field focused almost to a point of growth: nods them along the inner surface of another electrode Q. The experiment showed that in the EF space of the electron path, the existence of inertia intersects, and therefore the propagation of electrons to the surface of the electrode C is further enhanced.

With an oxygen-cesium surface of the cones and a potential difference between them of 2000 volts, the amplification factor for each cone is obtained, on average, equal to 5, without a focusing magnetic field.

The subject matter of the invention.

A photocell with a multi-stage secondary-electron amplification of a photocurrent for carrying out the method according to author's certificate No. 45765, wherein the electrodes used for receiving the secondary emission and the direction of the electron flows have the form of short truncated cones and are oriented coaxially with the sharp side of one cone to the expanded part of the next.

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