D. Edward Mitchell 16:00, 14 April 2020 (UTC) Hello World!    groupKOS Developer Share UNDER CONSTRUCTION

Resonant-X Project

From groupKOS Developer Share
Jump to navigation Jump to search

Resonant-X Project

Home Experiments Resonant-X category pages

Villarceau circles remain tangent on an abstract torus surface.


17:16, 8 April 2020 (UTC) Developer Msg:    Don't lean too hard on this information, because it may change tomorrow, or last week. Standby The Button

If the Villarceau circle dipole resonator forming an array of resonators around an abstract torus has bifilar connector points at the top and bottom of the torus ring section (rather than from the torus hole to the torus outer diameter) then a current flow may approach from above, with a current sink below the torus to ground. This provides a current flow parallel to the center axis of the torus.

The DC discharge through the copper loops will flow at a high-rate of propagation along the conductor, slowed by the inductive impedance of 1/2 of a copper loop, which is a few milliOhms resistive, increasing with frequency (or ΔI of a pulse). The magnetic field established by the current flow impedes the current flow.

While the ring-oscillation evolves continually with timing variations (FM component of timing-drift blended with 1/f frequency drifts of VLF in the FM as walking chimera), the switching-rate of current discharge through the ring is proceeding at a center frequency of oscillation adjustable by the voltage level of the DC current source (describing a voltage-controlled oscillator frequency).

Until a harmonic condition arises, the fixed impedance of the ring system sets a fixed ring-frequency —per any certain voltage. Increasing the voltage increases the ring-frequency, until the semiconductor switches smoke.

For harmonic amplification, the re-switching time of a ring amplifier section needs to synchronize with the natural harmonic period of the current loop through copper. Frequency-tuning-by-scale of the resonant elements may afford tuning without adding capacitance.

In design theory with a nebulous grip upon Developer's brain, the tuning will impact the whole resonant system to oscillate as an ideal-model that oscillated as-if there is no signal-delay through silicon switches.

The ideal concept would be resonant elements that behave as if they are powered from nowhere by pink or cyan pixie dust.  This ideal resonator may need to drift in frequency which directly dials a particular voltage polarity of the ideal standing wave sections of solid copper (pumped with several kiloWatts of high-frequency microsecond current pulses).

Pictures may come. Send me energy.

And/or linger near The Button

Preclussions Thought dAxiom / dτ = Experimental Conjecture

Conjecture in principle: The system-propagation of a magnetic vector of rotation of a poly-phase ring may absorb the timing variations into a system-harmonic-envelop —having time-variable signal content related to the change of energy-fields in ambient proximity.


A dual-channel oscilloscope may provide some information affording better insights. It is assumed that the noisy components of the ring amplifier signals (switching-times per phase) will settle-out as a system harmony wraps the oscillating currents in a magnetic-skin, per se. The source-reference of skin effect of a natural harmonic resonance of a electromagnetic oscillator is recalled vaguely. [future me puts salient citation here] The gestalt of it is that at resonance, a magnetic envelop will 'skin' its host resonator media.

The interesting findings by an Asian university (if memory is serving correctly?) is that the topology of 'resonant envelop skin' follows electrostatic field equations.

The MRI experimentation proved that magnetic fields at resonance instantaneously change to a new energy density level throughout their resonant energy envelop —all simultaneously.

If both halves of a Resonant-X resonator element switch together, it means that both halves responded simultaneously from opposite sides of a copper loop formed by the switched halves. The synchronized-timing of semicircular-loop-halves, if locked into a simultaneous resonance, infers that their timing-lock is superluminal —as the switches are separated to opposite sides of the torus form.

Positive Resonant-X test results for simultaneous loose-array harmonic pumping becoming superluminally coherent between switches mounted at diametrically opposite locations on the resonant copper loop means what?

An information propagation vehicle of superluminal exchange may well be the Coulombic field continuum of the copper matter lattice.

Tests on various specie of metals as resonant conducting loops (magnetic dipole resonator as lead, e.g.) to reckon the actual velocity of a harmonic lock between loosely-coupled inverters would be to compare the peak-widths (timing lag of sinusoid-halves) among the species. A widening peak on a sinusoid is an addition of even harmonics to the resonant waveform, and a measurement of distortion to detect simultaneity.

Experimental Design Goals

  1. Provide a ring-oscillation system that does not electronically have an attractor basin that draws the loosely-timed ring system.
  2. This is afforded in an asynchronously switched (self-clocked) ring of inverters, thus growing chaotic)
  3. Therefore, the timing-events that constitute the fundamental contributions to a harmonic envelop are causally disconnected by the asynchronous timing. I.e., the chaotic conditions are resultant from system components, and not the system as a whole.
  4. The goal of the measurement is to discriminate an aggregation of chaotic timing components in to some level less chaotic, becoming more harmonic to the system timing that emerges.

Loosely-arrayed-oscillator scheme

Learning to build a broadband oscillator encompassing disparate elements as an auto-harmonic-whole when DC current is applied.
The 'X' refers to the crossing feed-back loops of a common flip-flop latch, as a pair of inverting amplifiers. Design versions begin with TTL 2-input NAND gates as flip-flop gates.
Sensorizing the drifting and confluence dynamics of whole-system-coupling under no physical timing anchor (within basin of engineering limits).
Based on component-properties and a function of the system-dwell, this skill then transfers to loosely engineer an approximation of, a simulacrum of, a Skyrmionic boson (half field — half-copper-structure) at desktop scale. This manifests as a pattern upon the chaos of magnetic pulses created by prime-driver current pulses.
Weakly-coupled external systems are anticipated to serve as a strange attractor for the 'chaotic' energy envelop. Essentially external FM signals will amplify their component signals in the resonant system that find a resonant fit, and dissipate slower than amplify.
Signal lock and event-tracking to four samples per π/2 degrees, or a whole cycle in 16-samples leads the design to that of a running 4-bit number modeling a phase-anomaly being tracked (transients, harmonics, bifurcations, inversions —perhaps).
The signal presence bosonic-modality of loosely coupled parts (timing drifty) is anticipated to be observable by time-based windowed-sampling recent-N averages of timing variations of the polyphase signal group of the self-clocking ring amplifier of inverting latches. More sophisticated algorithms may follow including a live tracking dichotomy of periodic timing variation categories, with reverse-lookup to parametric determinants (Prueitt-Mitchell-CompanyX 2001. Ontologystreams.com ~stratified ontology).