Convectron fusion reactor

Compact fusion reactor

Convectron’s compact reactor concept uses internal charge and electric fields where bulky Tokamak schemes need external currents and magnetic fields. Without vacuum pumps and superconducting magnets, bosonic vortex cores will confine dense fusion plasma.
 
Two Convectron patents fit the reactor vessel with flow nozzles for fireball position and fuel mixing units for output control. Battery-powered ignition demands mobile electrodes while high-voltage breakdown methods admit fixed electrodes for ignition.
 

Circuit breaker and breakdown nozzle

In the mid-1980's Convectron’s predecessor installs submarine propulsion batteries shown in the second photo above. Short-circuit tests at peak power record fireball generation on high-speed film. National and worldwide TV audiences see this fireball in two documentary films.
 
The third photo above shows a Laval nozzle for high-voltage tests in gas flow at KEMA Laboratory in 1986-87. Breakdown tests at peak power stop before Convectron demonstrates fusion conclusively. A Japanese initiative documents circuit design and performance as neutron source in book form.

Photonics for fireball fusion

A series of publications details fireball fusion concepts in leading journals and conference books. With quaternion modes for central fireball potentials in the most recent paper. Since April 2010 the open access web site piers.mit.edu posts its full text  (click here).
  
In 1995 a TV spectator informs Convectron privately about fireballs from early laser tests. Their start pulse launches fireballs erosion-free from a open induction coil. As photonic process this  method brings fireball fusion within reach of discharge power from KEMA’s capacitor banks.