SU150179A1 - Electron-optical device - Google Patents

Description

In the known electron-optical devices with ionic focusing of the electron flux containing a thermal cathode and an electrode collector, the electrostatic zero gradient is chosen so that in each cross section of the stream the effect is compensated for the negative spatial charge. These devices make it possible to obtain a stream of electrons moving in only one predetermined direction.

In the described device, the electron collector is made in the form of a secondary electron emitter, which made it possible to obtain two electron trays, one of which is formed by electrons emitted by the thermal cathode and moving in the direction of the collector, and the second by secondary electrons moving from the secondary electron emitter to the thermal cathode electrons of the first beam.

A schematic representation of the device shown in the drawing.

The electron-ontic device consists of an electron gun /, an accelerating diaphragm 2 and a collector of 3 electrons. The electrons emitted from the electronic trigger 1 are accelerated by a positively charged diaphragm 2 and fly in the direction of the collector 5, forming the main electron flow. The electrons of this stream, having reached the collector 3, made in the form of a secondary electron emitter, knock out electrons from it, which move in the accelerating field towards the diaphragm 2, i.e., towards the main electron flow. The ratio between the currents of the alternating beams depends on the potential of the collector, the axial gradient of the potential of the electric field, the material and shape of the collector, as well as the shape of the main electron beam. When the collector is made of copper or tantalum, the current of the secondary electron beam can be obtained by a smaller, equal, and larger current of the main beam. The use of materials with a high secondary emission for a collector will make it possible to obtain oncoming beams with a high current density exceeding the main beam current density by several orders of the invention.

A tectron-optical device with ion focusing of an electron beam in a high vacuum, in which the gradient of the electrostatic field is chosen such that in each cross section of the flux a negative spatial charge is compensated for, in order to obtain counter-electron flows, the electron collector B is designed as a secondary-electronic emitter, b ,; A source of secondary electrons moving in the accelerating field in the direction opposite to the motion of the main stream of electrons emitted by the thermal cathode.