Prototype Field Array system design: Difference between revisions
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XenoEngineer (talk | contribs) (Created page with "<div style="float:left; width:450px; background:wheat; padding:0 1em;"> === Electronic testing and bench setup === :* Power transistor testing with Wilbert B. Smith's vintage Tensor Coil of 14# solid copper wire Caduceus-wound on ferrite. The Pulse Injector :* NSROS.Prototype pulse discrimination circuits (PDCs) to detect and record as many pulses per second as the hardware implementation will allow...") |
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Revision as of 22:35, 20 November 2023
Electronic testing and bench setup
- Power transistor testing with Wilbert B. Smith's vintage Tensor Coil of 14# solid copper wire Caduceus-wound on ferrite. The Pulse Injector
- NSROS.Prototype pulse discrimination circuits (PDCs) to detect and record as many pulses per second as the hardware implementation will allow, reasonably.
Hardware configurations implementing toroidal phased-magnetic density wave
The Hexatron
- The Resonant-X configuration as a 3-group of 13:8 torus knot windings. These form a Hexatron Field Array, segmented into 1/2 knots, with six (hex-a-tron) power-connections around the periphery of the donut. Physical parameters: Torus (donut) profile of major-radius/hole-radius of Phi^4/1. The knot windings are three unique 13:8 knot windings of copper, producing sorted phase-conductors for step-phase rotary activation of a tangential magnetic density wave as a CW-NMR group-wave on the donut, established by bismuth (or other) NMR target material. These design criteria are met with integer winding-harmonics (as a Fibonacci knot winding ratio), and irrational physical dimensions.