Hypothesis: Quarks follow GEIER's 3x(and,or)2 Rule in a broader not °-related variation

Hypothesis: Quarks follow GEIER's 3x(and,or)2 Rule in a broader not °-related variation

This strong hypothesis is related to
1. the combinations of quarks in particles (i.e. two or three) and
2. the fractions of elementary charge 1/3e or 2/3e of quarks.
Critique welcome!

23.03.2026 (Obvious, but I did it realize just yesterday night; see gestalt switch according to Thomas S. KUHN):
In addition,
(i) the 3x2 structure of the six quarks determined by the CABIBBO–KOBAYASHI–MASKAWA matrix, CKM matrix, quark mixing matrix, or KM matrix which is a unitary matrix that contains information on the strength of the flavour-changing weak interaction can be mapped to GEIER’s (2xand,or3)(°) Rule (2 → >.9734);

(ii) the total number of quarks is 6 and fits GEIER’s 6(°) Rule at least numerologically. (However, there are presumably 6 antiquarks.)

In conclusion, the fit to GEIER’s (2xand,or3)(°) Rule and GEIER’s 6(°) Rule derived in a completely different physical context from GEIER’s Equations (with its relation to a possible “pilot-wave concept”) is striking and worth being considered by colleagues in theoretical and experimental physics further on.


Yours Stefan Geier, Haidholzen

Reference:
a) GEIER Stefan et al.: Quasicrystal Symmetry-Angle Frequencies and Tests of GEIER’s n×6° Rule or GEIER’s nx(2xand,or3)° Rule and Φ-Related Geometry: Part 4.1 of 'Crystallography and GEIER's n×6° Rule'
February 2026
DOI: 10.13140/RG.2.2.20360.28168
b) Observation of the doubly charmed heavy proton Ξcc+. https://lhcb-outreach.web.cern.ch/2026/03/17/observation-of-the-doubly-charmed-heavy-proton-%ce%becc/ Observation of the doubly charmed heavy proton Ξcc+. https://lhcb-outreach.web.cern.ch/2026/03/17/observation-of-the-doubly-charmed-heavy-proton-%ce%becc/
c) etc.
d) etc.

Critique welcome!



Figure: Wikipedia, modified by:TimothyRias - Derivative work, from public down work uploaded to en.wikipedia. original, Public Domain, https://commons.wikimedia.org/w/index.php?curid=7415772, Amsler et al. (2008). "Review of Particles Physics: The CKM Quark-Mixing Matrix". Physics Letters B667 (1): 1–1340.".

(Hypothesis to be tested: .9734^2 etc. of the CKM matrix are probabilities allowing some uncertainity (100%-94.75%=5.25% near the well known 5% significance level) everywhere and allowing GEIER's 6 Rule to be opened to GEIER’s (2xand,or3) Rule, too.)

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