SU103252A1 - Superhigh-frequency electron beam instrument - Google Patents

Description

Along with i-BepxjiucoKMMacTOTHborif, generator and standalone lamps, in which the electron beam is modulated by the spatial density of the space charge to the mn no. (T, 111, 1.

The existence of an electron beam after its exit from the disconnect (its system,

In order ustraieni this disadvantage and) yuvysheii the saognm effektiviostn microwave lamps with an electron beam and transverse flyutchtuatsi mi density nrostrapstvenpoto charge, nredlagaets for electronic nushkon placed coplanar pla-Steen eozdayunip, the high frequency electric field nerpendikul molar direction of electron motion so so that the elec / ctrspy, which are displaced from the axis, have only the axial component of velocity.

The drawing shows schematically and shows the setting) i) iicTBO and the proposed microwave device.

The lamppa contains an electron gun, (the pin of the cathode (1) pitch. The focusing electrode (2) and one or several apods (3). The electron gun serves to create an electrophotograph of the beam. IUMennbix lamps or wave waves or in .mp. Backward wave. Electro-ray (4). Instruments from electrically; nyniKir.

sends: -; in HpocTijaitcTiBO, between flat-parallel plates (5), where there is a T-frequency electric field, it is perpendicular to the axis of the beam.

On the line; to pan)) avl1-H1Sh electricIll zero is shown by arrows.

The time of flight of an electron through this space must be equal to one period of microwave oscillation. With the ETU1 condition in the electron beam, the output from the space between the plates (5), elec. Elec.) It will be twofold in the path of the parallel microprocessor parallel to the {1 axis of the beam, and for electrons different, the phases are linear, the paths will be different distances from the 1.1C beam.

This elektron 5Y11 beam. nMeionuiii,.: In a HIM, non-divergent form, direct.: ji field deputy; -l of the system (6). It is known that almost zero created by slowing down (e11 by the system usually weakens as it moves away from itee. Therefore, the electrons that go to the slowing system (electrons marked with dots in the drawing) get into a stronger field than y. distant electrics (which are marked with crosses in the drawing).

If the elec-

Electronol will be converted into microwave energy.

Having worked, the electrons can be y.ifaBy by the collector (7).

The advantage of the proposed irpituopa in front of traveling wave lamps and reverse-Hoii lamps is the condition that the slow system does not receive a direct flow of electrons, but a tray that is space-modulated. This gives the opportunity to reduce, high-frequency, energy, space time, necessary for transfigurability. nqcTosrHHori) electron flow into alternating.

The method of input power input and output selection may be 1, different values are determined by the 5th and the first instrument.

PROPOSITION AND

An ultra-high-frequency electrically-coupled device for generating or amplifying an electron beam, which is due to the fact that, in order to improve the efficiency of the electron beam. generators or amplification gains of amplifiers, the electron beam emerging from the electron gun, flows through the deflecting c: system in which an electric high-frequency field acts on it, perpendicular to perpendicular direction of the beam, and the length of the deflecting system. fluctuations are chosen so that the time of the passage of electrons through this system is equal to or a multiple of the period of the deflection of the high .iijacTOTHoro field.

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