Patent ID: 8390200

Claim:
A gyrotron comprising; a magnetic outer tube having a first length along a central axis and a first width along its cross section, the magnetic outer tube defining a first interior zone at its proximal end along the central axis followed by a second interior zone at its distal end along the central axis; an outer tubular conductor disposed within the magnetic tube about the central axis having a second width that is less than the first width and a second length extending along the second interior zone and into the first interior zone, wherein a portion of the outer tubular conductor within the first zone connects to an outer anode disposed within the magnetic outer tube about the central axis; a single tubular cathode disposed within the magnetic tube about the central axis having a third width that is less than the second width and a third length extending along the first interior zone; an inner conductor disposed within the magnetic tube about the central axis having a fourth width that is less than the third width and a fourth length extending along the first interior zone and into the second interior zone, wherein a portion of the inner conductor within the first zone connects to an inner anode disposed within the magnetic outer tube about the central axis; wherein the single tubular cathode further comprises an outer electron emitter ring encircling the single tubular cathode on an outer surface and an inner electron emitter encircling the single tubular cathode on an inner surface, respectively, such that the inner electron emitter also circles the inner anode; wherein the outer tubular conductor forms a coaxial beam-wave interaction cavity outer surface, and the inner conductor and the inner anode form the coaxial beam-wave interaction cavity inner surface, with an output end at its distal extremity; wherein the outer anode encircles the single tubular cathode within the magnetic outer tube; wherein the single tubular cathode acts upon the inner and outer electron emitter rings so that electrons are emitted from the inner electron emitter ring and the outer electron emitter ring, forming an inner hollow electron beam and an outer hollow electron beam, respectively, moving along the central axis, concentric to each other, and distally toward the output end into the coaxial beam-wave interaction cavity, and the magnetic field of the inner anode and the outer anode act upon the inner and outer hollow electron beams within an electromagnetic field within the magnetic outer tube so that the motion of electrons within the magnetic field is close to that of the electron cyclotron frequency within the coaxial beam-wave interaction cavity, and the single tubular cathode and anodes are configured such that the electromagnetic wave power of the electron beams is increased along the central axis in a proximal to distal direction and the electron beams are transmitted from the output end.