Patent ID: 7116054

Claim:
A Hall current ion source with a positive magnetic gradient, with electric potential applied between cathode and anode, where electrons move in a discharge channel in mainly radial magnetic field with a minimum magnetic field in anode area and where electrons are magnetized and move in closed drift trajectories, and ions are not influenced by magnetic field and move along axis to an ion source's end-side; this ion source comprises of: a gas distributing system placed under anode in a volume, which is a subject of electron penetration and photo-ionization radiation, in a lower part of discharge channel, where a discharge channel length is larger than a discharge channel width, with ionizing gas supplying holes directed tangentially into a gas input area, so a gas vortex flow is established providing uniformly distributed working gas under and into anode area; an anode with positive electric potential; anode is located close to a gas distributing system, and it is placed in a discharge channel external wall between two cylindrical external dielectric walls; a cathode-neutralizer placed outside ion source at a certain distance to provide optimal plasma flow with electrons that move into anode area to close electrical circuit, for ionization of working gas molecules, and for neutralization of ions in discharge channel and outside an ion source; a magnetic field that mainly radial in area around gas distributing system, over anode and having a minimum value in anode area; a radial magnetic field is increasing its value along a central magnetic pole in a form of a protrusion till end of a protrusion, and from this protrusion to a discharge channel end-side having both components of magnetic field, radial and axial in area over a central magnetic pole to a discharge channel exit; a magnetic circuit for establishing a magnetic field necessary for magnetizing electrons and preventing them from straight motion from a cathode neutralizer to anode; magnetic poles placed at exit part of ion source and a magnetic pole in a center of a discharge channel in a form of protrusion with a magnet or electromagnet placed in a central magnetic pole; magnetic screens surrounding central magnetic pole and discharge channel, a variation of length of internal and external magnetic screens provides necessary positive gradient of magnetic field in anode area and in most part of discharge channel for efficient ionization and suppression of oscillations of discharge current and voltage, magnetic screens with magnetic means provide a magnetic field that has a minimum value, close to zero, at an anode area, in such away that a magnetic field increases along a discharge channel and at a distance of about ½ of a discharge channel's length its maximum values of magnetic field become B r ≧0.6 B r,max .