RU2008138418A - LINEAR ELECTRON ACCELERATOR - Google Patents

Abstract

 1. A linear electron accelerator containing an electron beam injector with a thermionic emission cathode, an accelerating resonator made in the form of a biperiodic chain of connected cells of optimal shape, a microwave generator for supplying an accelerating resonator, a vacuum pumping device, power supply and control, characterized in that between the injector and accelerating a beam aperture filter is installed in the resonator, made in the form of a tube with an aperture, the diameter of which is several times smaller than the diameter of the injector cathode, and the channel for The electron beam in the accelerating cavity has a variable diameter, which is the smallest at the beginning of the accelerating cavity and gradually increases towards its end. ! 2. The linear electron accelerator according to claim 1, characterized in that the increase in the diameter of the channel along the accelerating resonator is performed in steps, in groups of cells. ! 3. The linear electron accelerator according to claim 1 or 2, characterized in that the thermionic cathode has an annular shape in which the central part of the cathode is absent or does not contain material emitting electrons. ! 4. The linear electron accelerator according to claim 1 or 2, characterized in that the axis of the electron beam injector is directed at an angle to the axis of the accelerating resonator, and a magnet is created between the electron beam injector and the accelerating resonator, creating a transverse magnetic field designed to rotate the electron beam with axis of the injector to the axis of the accelerating resonator.

Claims (4)

1. A linear electron accelerator containing an electron beam injector with a thermionic emission cathode, an accelerating resonator made in the form of a biperiodic chain of connected cells of optimal shape, a microwave generator for supplying an accelerating resonator, a vacuum pumping device, power supply and control, characterized in that between the injector and accelerating a beam aperture filter is installed in the resonator, made in the form of a tube with an aperture, the diameter of which is several times smaller than the diameter of the injector cathode, and the channel for The electron beam in the accelerating cavity has a variable diameter, which is the smallest at the beginning of the accelerating cavity and gradually increases towards its end. 2. The linear electron accelerator according to claim 1, characterized in that the increase in the diameter of the channel along the accelerating resonator is performed in steps, in groups of cells. 3. The linear electron accelerator according to claim 1 or 2, characterized in that the thermionic cathode has an annular shape in which the central part of the cathode is absent or does not contain material emitting electrons. 4. The linear electron accelerator according to claim 1 or 2, characterized in that the axis of the electron beam injector is directed at an angle to the axis of the accelerating resonator, and a magnet is created between the electron beam injector and the accelerating resonator, creating a transverse magnetic field designed to rotate the electron beam with axis of the injector to the axis of the accelerating resonator.