Why m_n and not m_e?
The neutron mass is chosen as the calibration anchor (not m_e, alpha, or G) because it is the most directly determined composite quantity in the tau ontic hierarchy. The neutron is the ground-state baryon, the simplest persistent defect bundle involving all three fiber sectors. T
What this page is
This is a public Results-lane surface for a noteworthy Physics Registry item. It is generated from the Corpus Registry triage catalogue and keeps the generic Result catalogue unchanged.
Registry evidence
- Registry item: V.R267
- Type: remark
- Scope: tau-effective
- Lean status: formalized
- Book / part / chapter: Book V · Part 7 · Chapter 60
Result summary
The neutron mass is chosen as the calibration anchor (not m_e, alpha, or G) because it is the most directly determined composite quantity in the tau ontic hierarchy. The neutron is the ground-state baryon, the simplest persistent defect bundle involving all three fiber sectors. The electron mass is then a prediction, not an input.
Related Results surfaces
Reading role
Use as Registry evidence for an existing Results surface.
Claim boundary
This page reports a Registry-backed internal result surface. It is not an external validation claim, a scientific consensus claim, or independent acceptance.
Curation rationale
- physics-facing terms: alpha, electron, mass, neutron
- result-facing terms: calibration, prediction
- candidate is better handled as evidence for an inferred existing public surface
Review notes
- No additional review notes recorded.