Magnetic Field Enhancement

Magnetic Field Enhancement occurs when the Magnetized Gas-Lattice (placed inside EPG close-loop tubular system) is exposed to and interacts with Laser energy, as illustrated in Figure 29 WFC Tech-brief.

The absorbed Laser energy forces the Iron ions' ELECTRONS to spin at a faster rate when taken to a higher energy level, which, in turn, amplifies and strengthens the magnetic field (Domain magnetic field) of the Iron ions.

The spinning electrons simply interact with both electrostatic forces and electromagnetic forces to produce an enhanced magnetic field.

This magnetic process is an extension of "The Electron Theory Of Magnetism".

Increasing Laser intensity increases the magnetic field strength of the gas-lattice in a linear function. NICKEL IONS and COBALT IONS are interchangeable with and duplicate the magnetic properties of Iron ions undergoing Laser priming.

In Quiescent-State, the laser energy is superimposed onto the Gas-Lattice and "stored" inside the close-loop tubular EPG system to maintain a given or predetermined magnetic field strength during EPG operations.

In Active-State, the laser energy is pulsed and passes through the Gas-Lattice to produce a magnetic pulse-wave, as illustrated in Figure 29 as to Figure 26A and 26B.

In either case, the resultant magnetic field transverses pickup-coils to produce electrical energy.