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=Resonators of the NSROS=
=Resonators of the NSROS=

Revision as of 13:55, 19 November 2024

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The Nucleo-Sonic Ring Oscillator System

phased magnetic array for tuning magnetic density wave velocity CW NMR activation as the phase-space compeller of the nucleo-phonon at system resonance by XenoEngineer

Overview  ∞  System  ∞  Hexatronic Logic Ring  ∞  High-Frequency Operation  ∞  Resonators  ∞  Regularity Analysis  ∞  Cognitive Potential  ∞  About  ∞  References  ∞ 

Resonators of the NSROS

ROUGH DRAFT NOTES PENDING SMOOTHING

Frequencies of resonant peaks of nucleophononic periods of bismuth and copper

Geometric knot winding entanglement

Three halves (bifurcations) of three individual torus knot windings upon a torus profile of 4th auric geometry. Three yellow dots depict a starting-point on a knot winding path, and each bifircated knot winding ends on the red dot, diametrically opposite of the starting-point.
When the bifilar halves of a knot are connected in a hexatronic configuration, the knot winding path between a yellow and red dot (one bifurcated knot half) is the circuit path of the cross-over latching signal of the logical flip flop.  I.e., the NAND gates comprising flip-flops are opposite each other around the hexatron resonant elements.

Geomagic of pattern-dissonance between knot-count, and winding-entanglement of a 13:8 knot winding

The banding of half of the 3-knot halves (bifurcations) is —geomagically— creates ordered-knot windings, as in the Diagram I.

Diagram I —Order by phase number of 13:8|3-group pattern emergence

Knot Winding        Order on the abstract torus surface
                    half 1     half 2
Yellow Dot A        ABCA       BCAB    

Yellow Dot B        BCAB       ABCA

Yellow Dot C        CBAC       ABCA

The combined order on the abstract torus surface of bifilar halves 1 & 2'':
 
                    ABCA BCAB CABC ABCA BCAB ABCA

This is a continuous phase-order, texturing the entire abstract torus surface with an ordered phase group, around and through the hole continuously and uninterrupted.

Tuning step-phase electrification

The step-phase electrification of ordered phases, as the 13:8 | 3-group geomagic creates, creates an magnetic flux on the abstract surface, moving in flux-density from winding to winding.
 
The velocity of the flux density motion of step-phase electrification is a direct proportion of the geometry spanned by the phased coils.
 
I.e., as the phase of the activating pulses in the 3-phased array (knot winding 3-group) rotated, the magnetic activation pattern among phases on the abstract torus travel.  The travel is directly related to the phase-frequency, as a function of the lineal distance between phase windings.


Animating the B1 pulse

3-2x17ph 34-unit-q mod-17 step-phasing.gif

These red/orange/green animated 3-groups depict a phase rotation of the whole knot, verses the bifilar halves of the red/blue animation.

13.8 phase rotation.gif 13.8 phase rotation 2.gif 13.8 phase rotation 3.gif

More better illustrations are in the bucket list —XenoEngineer

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