Spontaneous Symmetry Breaking (SSB in ODTOE)
Spontaneous Symmetry Breaking (SSB in ODTOE)
定义
In ODTOE, spontaneous symmetry breaking is the Higgs-analogue mechanism by which the symmetric potentiality field Ψ collapses into a non-symmetric vacuum, instantiating the first observer. Unlike the standard Higgs mechanism, the selected vacuum is unique because it is filtered by KAM selection of the golden-ratio resonance.
In ODTOE, spontaneous symmetry breaking is the Higgs-analogue mechanism by which the symmetric potentiality field Ψ collapses into a non-symmetric vacuum, instantiating the first observer. Unlike the standard Higgs mechanism, the selected vacuum is unique because it is filtered by KAM selection of the golden-ratio resonance.
相关术语
Primordial Distinction
The primordial distinction is the first split in the symmetric potentiality field Ψ that gives rise to the observer-observed pair without any pre-existing observer. It is realized in ODTOE as Higgs-analogue spontaneous symmetry breaking plus KAM selection of the golden-ratio vacuum.
KAM Selection
KAM selection in ODTOE is the use of the Kolmogorov–Arnold–Moser theorem to filter the surviving vacuum after spontaneous symmetry breaking: only trajectories with the most irrational frequency ratio survive perturbation, and that ratio is the golden ratio φ. KAM is therefore the mechanism that picks φ-resonance as universal invariant.
φ-Resonance (Golden Ratio)
φ-resonance is the role of the golden ratio φ = 1.618… as the unique stable resonance frequency in ODTOE, selected from the potentiality field by the KAM theorem because φ is the «most irrational» number. φ is the fixed point of the self-referential map f(x) = 1 + 1/x and appears in fundamental constants, nested φ-tori and recursive structure of reality.