omega_BIT
plain-language theorem explainer
The BIT carrier frequency is defined as five times the golden ratio in RS-native units. Researchers deriving substrate-dependent T2 ratios under the Bosonic Identity Theorem cite this constant when calibrating decoherence channels across qubit classes. It is supplied by a direct definition with no additional steps.
Claim. The BIT carrier frequency satisfies $ω_{BIT} = 5φ$, where $φ$ denotes the golden ratio.
background
The Decoherence from BIT module treats the Bosonic Identity Theorem as identifying a common carrier for dark-energy, superconductivity, and consciousness-substrate interactions. This carrier is fixed at the value 5φ in RS-native units, matching the carrier definitions already present in cortical neuromodulation and phantom-coupled GW antenna models. The upstream Constants structure supplies the abstract bundle of CPM constants that includes φ, while the module itself records that Z-rung assignments for specific qubit families remain hypothesis-grade.
proof idea
This is a one-line definition that directly assigns the constant to five times Constants.phi.
why it matters
The definition supplies the canonical frequency required by the DecoherenceFromBITCert structure and the one-statement theorem decoherence_from_BIT_one_statement. It anchors the BIT-coupling model inside the Recognition Science framework at the self-similar fixed point φ (T6) and the eight-tick octave (T7). The assignment enables the structural result that cross-class T2 ratios are exact φ-powers, while leaving the per-class Z-rung assignments as open empirical hypotheses.
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