Люди
Electrical oscillations in a metallic "sending coil" radiate inductive photons toward one or more "energymagnifying coils" comprised of a photoconductor or doped semiconductor coating a metallic conductor, or comprised of a superconductor. Electrons of low inertial mass in the energy-magnifying coil(s) receive from the sending coil a transverse force having no in-line backforce, which exempts this force from the energy-conservation rule. The low-mass electrons in the energy-magnifying coil(s) receive increased acceleration proportional to normal electron mass divided by the lesser mass. Secondarily radiated inductive-photon energy is magnified proportionally to the electrons' greater acceleration, squared. E.g., the inductive-energy-magnification factor of CdSe photoelectrons with 0.13.times. normal electron mass is 59.times.. Magnified inductive-photon energy from the energy-magnifying coil(s) induces oscillating electric energy in one or more metallic "output coil(s)." The electric energy output exceeds energy input if more of the magnified photon-induction energy is directed toward the output coil(s) than is directed as a counter force to the sending coil. After an external energy source initiates the oscillations, feedback from the generated surplus energy makes the device a self-sustaining generator of electric power for useful purposes.
Correspondence: KLARQUIST SPARKMAN, LLP; 121 SW SALMON STREET, SUITE 1600,
PORTLAND, OR 97204
Assignee: Levitronics, Inc.
US Cl. 310/208
Intl. Cl. H02K 3/04 20060101 H02K003/04

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