A.F. Kobets scite author profile

This paper presents compact power supply system for the helium ion linac’s injector. The system consists of high-voltage modulator, power supplies of cathode filament, solenoid and arc modulator. It is designed on modern semi-conductor base. Using of the designed power supply system allowed to decrease the power consumption and to get rid of spurious capacitances and pickups. As a result of improving the continuous adjustment modulator and high-voltage pulse stabilization scheme, the accelerated beam current has increased twice.

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The Structure of the High Frequency Focusing Cells in Linear Ion Accelerators

Bomko

Dyachenko²,

Kobets³

et al.

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Interdigital accelerating H structure in the multicharged ion linac

Bomko

Demchuk

Dyachenko

et al. 1998

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Two modifications of the interdigital accelerating H structure forming the basis for upgrading both the main and prestripper sections of the Kharkov multicharged ion linac (MILAC) are described. Possible application of this type of structure to heavy ion accelerator is discussed. It is shown that the use of the interdigital H structure in this particular case has enabled three major problems to be solved, namely: (i) to increase the operating wavelength from 2.1 m of the previously used Alvarez structure up to 6.3 m, (ii) to double the acceleration rate, and (iii) to increase the shunt impedance by 2–4 times. New methods and designs are described for tuning the cavities at an operating frequency and transforming the sinusoidal field distribution, peculiar to the H mode, into the homogeneously distributed field along the structure axis, with varying period lengths. Characteristics of the MILAC main and prestripper sections are given.

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A.F. Kobets

Investigation of porous structure in the PET films irradiated with Ar ions

Initial stage of etching through pores in PET films irradiated by Ar ions

Power Supply System for the Helium Ions Linac’s Injector

The Structure of the High Frequency Focusing Cells in Linear Ion Accelerators

Interdigital accelerating H structure in the multicharged ion linac

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