Part II: Quantum Mechanics as Address Obstruction
Quantum mechanics is not postulated—it is *derived* from the τ³ geometry. The CR-structure on the fibered product τ³ = τ¹ ×_f T² couples the torus…
Part Overview
Quantum mechanics is not postulated—it is derived from the τ³ geometry. The CR-structure on the fibered product τ³ = τ¹ ×_f T² couples the torus fiber to the worldline base in a way that forces discrete spectra, non-commuting observables, and the full Hilbert-space formalism. Uncertainty is not epistemological but geometric: a CR-address on T² cannot simultaneously resolve conjugate coordinate systems—the address obstruction that gives this Part its name.
The eight chapters trace a single arc from the CR-address space through the holomorphic Hilbert space, quantization, the address-obstruction theorem (Heisenberg), measurement, the Schrödinger equation, and energy/entropy, culminating in the first quantitative prediction of the framework: the neutron-to-electron mass ratio R₀ = ιτ⁻⁷ - √3 ιτ⁻² ≈ 1838.7, derived from the breathing mode spectrum, the Epstein zeta function, the lemniscate capacity, and the holonomy correction π³α²—at {∼} 0.001% (8 ppm) agreement with the CODATA value, with no free parameters.
Chapters
- Chapter 13: The CR Address Space
- Chapter 14: Characters as Quantum Addresses
- Chapter 15: The Holomorphic State Space
- Chapter 16: Holomorphic Quantization
- Chapter 17: The Address-Obstruction Theorem
- Chapter 18: Measurement and the Schrödinger Equation
- Chapter 19: Energy, Entropy, and the Arrow
- Chapter 20: The Electron Mass Prediction
Chapter Navigation
Part pages expose the chapter path as navigation only. Chapter pages carry the individual abstracts and anchors.
Registry and TauLib Anchors
Registry anchors
No explicit Registry anchors are declared at part level yet.
TauLib links
No explicit TauLib module is mapped for this part yet.