תמונות העטיפה

שמור ב:
מידע ביבליוגרפי
מחבר ראשי: Greer, John Robert Lamarr
פורמט: Recurso digital
שפה:אנגלית
יצא לאור: Zenodo 2026
נושאים:
gentle reconfiguration
Berry phase
molecular topology
multi-helix architectures
spin-orbit coupling
topological protection
entanglement energy
β_crit(n)
Greer's Law of Asymmetry Balance
Alpha Void tear
CEO
Charge-Entanglement Ontology
switchable topology
gentle stacking
non-optimal eccentricity
helical correction
fractional helical grain
C13Cl2
half-Möbius topology
half-Möbius molecule
גישה מקוונת:https://doi.org/10.5281/zenodo.20121474
תגים: הוספת תג
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תוכן הענינים:
  • <p><span>In March 2026, researchers successfully synthesised and imaged a 13-carbon ring molecule (C₁₃Cl₂) exhibiting a true half-Möbius topology in its π-electron system — the electron cloud twists by exactly 90° per circulation, with full phase closure only after four complete loops. The molecule can be reversibly switched between chiral singlet states (left- and right-handed) and a planar triplet state using low-voltage pulses, displaying strong spin-orbit coupling in the twisted configurations.</span></p> <p> </p> <p><span>This paper provides a detailed Charge-Entanglement Ontology (CEO) analysis of the half-Möbius molecule. The fractional 90° helical grain, non-optimal Alpha Void tear eccentricity, voltage-driven reconfiguration, and enhanced spin-orbit coupling are shown to map directly onto key CEO predictions, including:</span></p> <p> </p> <p><span>- The helical correction term in entanglement energy</span></p> <p><span>- Critical locking efficiency β_crit(n)</span></p> <p><span>- Non-optimal eccentricity states (analogous to neutrinos)</span></p> <p><span>- Greer’s Law of Asymmetry Balance</span></p> <p><span>- Controlled gentle stacking across intermediate locking thresholds</span></p> <p> </p> <p><span>The molecule serves as striking atomic-scale confirmation that nature stabilises fractional helical grain architectures — precisely the class of structures predicted in the CEO framework to enable efficient yet reconfigurable informational matter. These findings have significant implications for multi-helix architectures, gentle stacking mechanisms, abiogenesis, and the emergence of complex informational systems.</span></p> <p> </p> <p><span>This work builds directly on Papers 11, 14, 19, and 21 in the Charge-Entanglement Ontology series and further strengthens the mechanical, geometry-first foundation of the ontology.</span></p>

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