Sergey P. Morev

Simulation of a Ka-band “Chebyshev” traveling wave tube on coupled cavity chain

The simulations results of the Ka-band TWT with high electronic efficiency (~20%), the gain coefficient (~50dB) and a broad band operating frequency are presented.

Multibeam electron-optical systems with curvilinear axis of the beam forming and transportation

The results of the calculation of a multibeam electron gun forming curvilinear electron beams are presented in this paper. The rotation of the electron beam is accomplished with the electrostatic fields of the electron lens, which is situated at an angle to the trajectory of the beam. The results of the calculation of the electron beam transportation in the magnetic fields of different configurations are also presented.

Possibilities of using reverse focusing system in klystron with variable electron beam energy

The results of the electron beam formation and transportation simulations in the multibeam klystron (MBK) with reverse focusing system operating with variable control electrode (grid) or anode voltages are presented in this paper. The possibility of using multibeam klystrons for supplying acceleration systems, running with various electron beam energy or power is shown.

To the question of maximum value of the real part of the interaction impedance output cavity of the klystron

In this paper was obtained the analytical relation, which determines the maximum possible amplitude of the output interaction impedance with output cavity of klystron associated with N passive cavities forming the filter system.

Use of the magnetic focusing system leakage field for a design high compression ratio electron gun

One way of matching highly compressed electron beams and magnetic focusing systems with reverse in the area of an electron gun are shown.

Approximate solution for the magnetic field distribution in the cell of the periodical magnetic focusing system

An analytical solution for the longitudinal and radial components of magnetic field density was discovered in magnetic field potential approximation for the cell of periodic magnetic focusing system (PPM) with the central ring-shaped insert and T-shaped pole pieces.

The electron-optical systems for compact Ka-band TWT with 500 W of output power

Results of the electron-optical systems (EOS) design for booster consisting of two traveling wave tubes (TWT) and providing the output power of 500 W in Ka-band at the overall accelerating voltage no more than 10 kV are given.

Formation of an electron beam in a matrix carbon field-emission cells

Results of research of an electron beam in field-emission Grigoryev-Shesterkina type cathode cells, intended for use are presented to the microwave oven devices. Possibility of development an electron optical system (EOS) with field-emission cathode matrixes for the O-type microwave devices with the beam emittance similar to an emittance in EOS with the thermo cathode is shown.

Implementation field-emitting planar matrices In electron-optic systems of powerful RF devices

The reasons of limitations in field emitter implementation in powerful RF tubes are investigated, overcoming ways are discussed. The results of electron beam optic system (EOS) design with planar type matrices of field emission cathodes and intense beams with power above 100 kW in CW mode are presented.

Simulations of a Ka-band 7-beam coupled-cavity traveling-wave tube when the operating frequency is near one of the cutoff frequencies

The developments results of the 7-beam Ka-band TWT with high electronic efficiency (~20%), the gain coefficient (~50dB) and a broad band operating frequency (~2.5%) are presented.