Patents Assigned to General Plasma Technologies LLC
  • Patent number: 6777862
    Abstract: An apparatus and method for thrusting plasma, utilizing a Hall thruster with segmented electrodes along the channel, which make the acceleration region as localized as possible. Also disclosed are methods of arranging the electrodes so as to minimize erosion and arcing. Also disclosed are methods of arranging the electrodes so as to produce a substantial reduction in plume divergence. The use of electrodes made of emissive material will reduce the radial potential drop within the channel, further decreasing the plume divergence. Also disclosed is a method of arranging and powering these electrodes so as to provide variable mode operation.
    Type: Grant
    Filed: April 13, 2001
    Date of Patent: August 17, 2004
    Assignee: General Plasma Technologies LLC
    Inventors: Nathaniel J. Fisch, Yevgeny Raitses
  • Patent number: 6448721
    Abstract: An apparatus and method for thrusting plasma, utilizing a Hall thruster with a cylindrical geometry, wherein ions are accelerated in substantially the axial direction. The apparatus is suitable for operation at low power. It employs small size thruster components, including a ceramic channel, with the center pole piece of the conventional annular design thruster eliminated or greatly reduced. Efficient operation is accomplished through magnetic fields with a substantial radial component. The propellant gas is ionized at an optimal location in the thruster. A further improvement is accomplished by segmented electrodes, which produce localized voltage drops within the thruster at optimally prescribed locations. The apparatus differs from a conventional Hall thruster, which has an annular geometry, not well suited to scaling to small size, because the small size for an annular design has a great deal of surface area relative to the volume.
    Type: Grant
    Filed: April 13, 2001
    Date of Patent: September 10, 2002
    Assignee: General Plasma Technologies LLC
    Inventors: Yevgeny Raitses, Nathaniel J. Fisch