Problems:

The basic problem with fusion designs has been the potential for destruction of the chamber side walls.

A secondary problem has been the need to pour more energy in than what is generated out.

In order to avoid side wall destruction at the 3 to4 million degrees range of a fusion reaction , magnetic squeeze has been applied in one way or another.  Unfortunately to date the plasma field when compressed tends to cork-screw out of the squeeze effects of the magnetic compression field and thus side chambers are destroyed and the designs tend to fail.

My Solutions: 2011

My simple solution concept has been to compress from every possible angle in the three dimensional universe, and thus the fourth dimensional effect seen as a "cork-screw" in our 3D perception is avoided.  

Though simple in concept the execution in an engineering sense was somewhat challenging.  So far as noted on the index page the experiments have  squeezed the plasma fairly effectively and thus a tungsten central target was vaporized in 11 seconds with a huge magnetic pulse release suggesting a moment of fusion may have been attained in the spherical reactor case.

The first series of experiments was executed at two to two point five gigahertz in spheres ranging from3 to 6 inches in diameter.  

Resonant frequencies within specific sphere sizes based upon velocity C decreased slightly by gaseous loading to Vgl < C were consistantly successful in vaporizing the tungsten central target in 10 to 11 seconds thus proving the validity of the resonant principles PLUS the validity of omni angular compression.  (11,000 degress generated in 11 seconds approx. using 200 watts input).

Resonance requires the driven electrons rebound inward from the dialectric sphere walls precisely when the frequency reverses polarity, thus larger chambers require lower frequencies.  Volumetric dispersion of the 3 to 4 million degree point reaction requires a fairly large spherical dialectric chamber so the surface radiates in the 300 to 800 degree F' ranges.

A bench-mark  experimental series is needed using X-ray, gamma ray, and magnetic detectors and measurement devices to further define the out-put from these early single pulse designs, thus defining more precisely whether a true fusion reaction has been obtained or how close to an actual fusion event has been obtained.

3 - 4 million degrees also may be a too high estimate for the point reactions since there is a compressional aspect to the resonant omni directional design that may be enhancing the potential for fusion due to heat PLUS compression.

If successful parameters are proven then:

Further funding will be needed since for sustained fusion the frequencies need to be lowered into ranges that will allow better dispersment of heat over a larger spherical surface area such that any fusional temperatures at the central point is dispersed over an area allowing 300 degree ranges on the sphere surface for steam generation and thus useful energetic designs.  600 - 800 degree ranges are manageable since circulating liquid metal may be employed to carry off the heat to secondary steam generator units and turbines.

 Computerized tuning is also a requirement since loading internally with small amounts of gases may occur.  Since the core temperatures are anticipated as in the millions of degrees range computerized safety shut down relays will also be part of any final designs.   $500,000. needed for study by expert personnel of estimated costs for final experimental design -salaries, equipment - housing of the design - and cost of permits needs expert detailed and referenced planning.  Design final construction will probably be in the $3 million to $10,000,000. range, but return on investment as THE fusion energy company should be excellent with gross income expected to climb over ten years toward 25% to 50% of the entire energy budget of the Earth as oil and coal resources become more scarce and pollution from carbon emissions becomes more destructive thus encouraging change over to fusion as a pollution free energy modality.

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