ISSN 0869-6632 (Print)
ISSN 2542-1905 (Online)

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About nonlinear theory of two-cavity klystron with a drift space in the form of medium with complex permittivity

The purpose of this work is to construct an approximate nonlinear theory of a klystron amplifier in which a medium with complex conductivity or with metamaterials with negative permittivity is located between the input and output cavities instead of the drift space. Within the framework of the constructed theory, calculate the output characteristics (gain, output power and efficiency) of the described device and compare the results with the classic two-cavity klystron. Methods.

О нелинейной теории двухрезонаторного клистрона с пространством дрейфа в виде среды с комплексной диэлектрической проницаемостью

Цель настоящей работы. Построить приближенную нелинейную теорию клистрона-усилителя, в котором между входным и выходным резонатором вместо пространства дрейфа располагается среда с комплексной проводимостью или с метаматериалами с отрицательной диэлектрической проницаемостью. В рамках построенной теории рассчитать выходные характеристики (коэффициент усиления, выходную мощность и КПД) описываемого прибора и сравнить результаты с классическим двухрезонаторным клистроном. Методы.

Some questions of the theory of resistive wall amplifier M-type

Results of researching linear theory of two models of resistive wall amplifier M-type are presented. Download full version

About consideration of electron transverse motions in resistive wall amplifier

Resistive wall amplifier is a vacuum microwave device, which has not been spread, but attracts attention again. Main features – no need to slow-wave structure and almost complete lack of feedback between output and input. The amplification occurs due to the phase shift between the electron beam and field variables that arise due to the presence of absorbing walls. The classic version of this device has high values of gain, however, if you replace the usual coating of a dielectric for metamaterial, gain increases substantially.

Wave processes in the electron beam in crossed static electric and magnetic fields as it moves in a medium with a complex conductivity

Resistive wall amplifier is vacuum microwave device. The gain is due to the phase shift between a.c. of electron beam and the alternating field components. The absorbing device walls influence on the alternating field components is considered. It is interesting that there is no need for a slowing system that is important to learn the submillimeter range. Furthermore the feedback is completely absent between the output and the input.

Noises in resistive wall amplifier, caused by fluctuations in the electron beam

In this paper, noise in resistive wall amplifier – vacuum microwave device is studied, in which in which the gain is due to the phase shift between the electron beam and the alternating field components due to the presence of absorbing walls. It should be noted that in resistive wall amplifier, there is no need for a slowing system and that almost completely there is completely lacks the feedback between the output and the input. Recently, attention has been paid to it, in particular, because of the possibility of using metamaterials that increase the gain factor.

Noise in resistive-wall amplifier of m-type with «thick» beam

The aim of our research is to study the noise in the resistive-wall amplifier with crossed electric and magnetic fields with a beam of finite thickness. The theory of the O-type resistive wall amplifier is well known, at least as a classical example of using of waves with negative energy. Theory of resistive-wall amplifier M-type, in which negative energy waves are also used, has not been studied until recently. It seems interesting to study noise in a device with crossed fields, especially since early work mentioned a possible low noise level. Method.