SU959186A1 - Method of producing modulated electron flow - Google Patents

Description

The invention relates to microwave technology and can be used to obtain modulated electronic currents in gas-filled devices and devices.

Methods are known for modulating electron fluxes based on imposing on a region occupied by an electron flux. A high-frequency electromagnetic field C.

A method is known for producing a modulated electron beam through. effects on the electron flux by the microwave field C 21 The disadvantage of this method is its complexity, since the modulated flux is created in a vacuum and then output to the working volume with gas through the diaphragm. This requires equipment for pumping out the vacuum volume and special means for focusing and accelerating the flow of electrons.

The purpose of the invention is to simplify the method by creating a modulated electron flow directly in the gas.

This goal is achieved by the fact that, according to the method for producing a modulated electron flux by acting on the electron flux by a microwave field, the discharge is excited and the electron flux is affected by the microwave field in the region of the cathode potential drop.

Example. The electron flow is obtained in the mode of an anomalous glow discharge in a gas. The electron beam is modulated by a grid resonator. The resonator grid is located at the boundary between the cathode potential drop and plasma. The electron flux modulated by the speed of the microwave field of the resonator is further modulated in density, and can be used in receiving microwave communication devices with spacecraft in an atmosphere of air.

The proposed method is simple to use and allows you to create simple devices for plasma antennas in the atmosphere of air, amplifiers of microwave signals, noise generators, etc.

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Claims (2)

Invention Formula A method for producing a modulated 30 electron beam by VoIP39591864 Link to the electron flow microwave field, 1. Levitsky C, M. and others. Interconnected aphids. This is due to the fact that ultrahigh and low oscillatory targets are simplified by the creation of self-waves in the plasma-beam system. Zhtf modulated electron flow, 39, issue 3, 1969, pp. 465-470. directly in excite 2. Popovich V.P. et al. The investigation of the section affects the electron conditions for the formation of a plasma flux by a microwave field in the region of a cathode discharge without a magnetic potential drop. Lime universities of the USSR. RadioInformation sources, physics, T.HU1, vy. 7, 1970, taken into account in examinations 1109-1117 (prototype).