RU93013390A - PLASMA ACCELERATOR WITH CLOSED ELECTRON DRIFT - Google Patents

Claims (1)

The plasma accelerator with closed electron drift is used in the field of space technology and plasma-vacuum technologies. The invention allows to increase the efficiency and resource accelerator. The essence of the invention: plasma accelerator with closed electron drift contains annular discharge chamber formed by inner and outer ring walls, with ionization and acceleration zones, separated by equipotential of electric field, anode with channels for supplying working gas to the discharge chamber, gas distributors, channels for supplying working gas to gas distributors, magnetic system with internal and external magnetic poles, a source of magnetomotive force, magnetic conductors, and a cathode - compensator; The magnetic system is additionally equipped with internal and external magnetic screens with a jumper, made of magnetic material, installed with gaps relative to the respective magnetic poles and covering the discharge chamber at least from the outside and inside diameter, or most of the walls of the discharge chamber in the ionization zone to the anode at an angle close to the normal with respect to the magnetic field lines that pass through these walls, and the surface of the anode facing the the discharge chamber encompasses the magnetic field lines of the ionization zone, forming the anode cavity, and is located no closer to the section of the discharge chamber than the magnetic force surface that intersects the ends of the anode near the walls of the discharge chamber in the ionization zone, and the working gas supply channels cavities; the walls of the discharge chamber in the ionization zone are made at an angle close to the normal with respect to the axis of the accelerator; the anode is provided with additional channels for supplying the working gas, located at the outlet of the anode cavity near the outer and inner walls of the discharge chamber; gas distributors of additional channels for supplying the working gas to the discharge chamber are made autonomous and equipped with independent channels for supplying the working gas; gas distributors of additional channels for supplying working gas are provided with a common, at least one, channel for supplying working gas; ring magnetic screens are connected by a continuous jumper and are made in the form of the walls of the discharge chamber, covering the hollow anode and gas distributor, and are not electrically connected to the rest of the structural elements of the magnetic system. The invention provides for reducing near-wall losses and improving the focusing of the accelerated ion flow in the discharge chamber, reducing the erosion rate of the walls in the acceleration zone and, accordingly, a lower percentage of the products of the sprayed walls of the discharge chamber in the ion beam.